/**
 * Copyright (c) 2006-2015, JGraph Ltd
 * Copyright (c) 2006-2015, Gaudenz Alder
 */
var mxUtils =
{
  /**
	 * Class: mxUtils
	 *
	 * A singleton class that provides cross-browser helper methods.
	 * This is a global functionality. To access the functions in this
	 * class, use the global classname appended by the functionname.
	 * You may have to load chrome://global/content/contentAreaUtils.js
	 * to disable certain security restrictions in Mozilla for the <open>,
	 * <save>, <saveAs> and <copy> function.
	 *
	 * For example, the following code displays an error message:
	 *
	 * (code)
	 * mxUtils.error('Browser is not supported!', 200, false);
	 * (end)
	 *
	 * Variable: errorResource
	 *
	 * Specifies the resource key for the title of the error window. If the
	 * resource for this key does not exist then the value is used as
	 * the title. Default is 'error'.
	 */
  errorResource: (mxClient.language != 'none') ? 'error' : '',

  /**
	 * Variable: closeResource
	 *
	 * Specifies the resource key for the label of the close button. If the
	 * resource for this key does not exist then the value is used as
	 * the label. Default is 'close'.
	 */
  closeResource: (mxClient.language != 'none') ? 'close' : '',

  /**
	 * Variable: errorImage
	 *
	 * Defines the image used for error dialogs.
	 */
  errorImage: mxClient.imageBasePath + '/error.gif',

  /**
	 * Function: removeCursors
	 *
	 * Removes the cursors from the style of the given DOM node and its
	 * descendants.
	 *
	 * Parameters:
	 *
	 * element - DOM node to remove the cursor style from.
	 */
  removeCursors: function (element) {
    if (element.style != null) {
      element.style.cursor = ''
    }

    var children = element.childNodes

    if (children != null) {
	        var childCount = children.length

	        for (var i = 0; i < childCount; i += 1) {
	            mxUtils.removeCursors(children[i])
	        }
	    }
  },

  /**
	 * Function: getCurrentStyle
	 *
	 * Returns the current style of the specified element.
	 *
	 * Parameters:
	 *
	 * element - DOM node whose current style should be returned.
	 */
  getCurrentStyle: (function () {
    if (mxClient.IS_IE && (document.documentMode == null || document.documentMode < 9)) {
      return function (element) {
        return (element != null) ? element.currentStyle : null
      }
    } else {
      return function (element) {
        return (element != null)
          ? window.getComputedStyle(element, '')
          : null
      }
    }
  }()),

  /**
	 * Function: parseCssNumber
	 *
	 * Parses the given CSS numeric value adding handling for the values thin,
	 * medium and thick (2, 4 and 6).
	 */
  parseCssNumber: function (value) {
    if (value == 'thin') {
      value = '2'
    } else if (value == 'medium') {
      value = '4'
    } else if (value == 'thick') {
      value = '6'
    }

    value = parseFloat(value)

    if (isNaN(value)) {
      value = 0
    }

    return value
  },

  /**
	 * Function: setPrefixedStyle
	 *
	 * Adds the given style with the standard name and an optional vendor prefix for the current
	 * browser.
	 *
	 * (code)
	 * mxUtils.setPrefixedStyle(node.style, 'transformOrigin', '0% 0%');
	 * (end)
	 */
  setPrefixedStyle: (function () {
    var prefix = null

    if (mxClient.IS_OT) {
      prefix = 'O'
    } else if (mxClient.IS_SF || mxClient.IS_GC) {
      prefix = 'Webkit'
    } else if (mxClient.IS_MT) {
      prefix = 'Moz'
    } else if (mxClient.IS_IE && document.documentMode >= 9 && document.documentMode < 10) {
      prefix = 'ms'
    }

    return function (style, name, value) {
      style[name] = value

      if (prefix != null && name.length > 0) {
        name = prefix + name.substring(0, 1).toUpperCase() + name.substring(1)
        style[name] = value
      }
    }
  }()),

  /**
	 * Function: hasScrollbars
	 *
	 * Returns true if the overflow CSS property of the given node is either
	 * scroll or auto.
	 *
	 * Parameters:
	 *
	 * node - DOM node whose style should be checked for scrollbars.
	 */
  hasScrollbars: function (node) {
    var style = mxUtils.getCurrentStyle(node)

    return style != null && (style.overflow == 'scroll' || style.overflow == 'auto')
  },

  /**
	 * Function: bind
	 *
	 * Returns a wrapper function that locks the execution scope of the given
	 * function to the specified scope. Inside funct, the "this" keyword
	 * becomes a reference to that scope.
	 */
  bind: function (scope, funct) {
    return function () {
      return funct.apply(scope, arguments)
    }
  },

  /**
	 * Function: eval
	 *
	 * Evaluates the given expression using eval and returns the JavaScript
	 * object that represents the expression result. Supports evaluation of
	 * expressions that define functions and returns the function object for
	 * these expressions.
	 *
	 * Parameters:
	 *
	 * expr - A string that represents a JavaScript expression.
	 */
  eval: function (expr) {
    var result = null

    if (expr.indexOf('function') >= 0) {
      try {
        eval('var _mxJavaScriptExpression=' + expr)
        result = _mxJavaScriptExpression
        // TODO: Use delete here?
        _mxJavaScriptExpression = null
      } catch (e) {
        mxLog.warn(e.message + ' while evaluating ' + expr)
      }
    } else {
      try {
        result = eval(expr)
      } catch (e) {
        mxLog.warn(e.message + ' while evaluating ' + expr)
      }
    }

    return result
  },

  /**
	 * Function: findNode
	 *
	 * Returns the first node where attr equals value.
	 * This implementation does not use XPath.
	 */
  findNode: function (node, attr, value) {
    if (node.nodeType == mxConstants.NODETYPE_ELEMENT) {
      var tmp = node.getAttribute(attr)

      if (tmp != null && tmp == value) {
        return node
      }
    }

    node = node.firstChild

    while (node != null) {
      var result = mxUtils.findNode(node, attr, value)

      if (result != null) {
        return result
      }

      node = node.nextSibling
    }

    return null
  },

  /**
	 * Function: getFunctionName
	 *
	 * Returns the name for the given function.
	 *
	 * Parameters:
	 *
	 * f - JavaScript object that represents a function.
	 */
  getFunctionName: function (f) {
    var str = null

    if (f != null) {
      if (f.name != null) {
        str = f.name
      } else {
        str = mxUtils.trim(f.toString())

        if (/^function\s/.test(str)) {
          str = mxUtils.ltrim(str.substring(9))
          var idx2 = str.indexOf('(')

          if (idx2 > 0) {
            str = str.substring(0, idx2)
          }
        }
      }
    }

    return str
  },

  /**
	 * Function: indexOf
	 *
	 * Returns the index of obj in array or -1 if the array does not contain
	 * the given object.
	 *
	 * Parameters:
	 *
	 * array - Array to check for the given obj.
	 * obj - Object to find in the given array.
	 */
  indexOf: function (array, obj) {
    if (array != null && obj != null) {
      for (var i = 0; i < array.length; i++) {
        if (array[i] == obj) {
          return i
        }
      }
    }

    return -1
  },

  /**
	 * Function: forEach
	 *
	 * Calls the given function for each element of the given array and returns
	 * the array.
	 *
	 * Parameters:
	 *
	 * array - Array that contains the elements.
	 * fn - Function to be called for each object.
	 */
  forEach: function (array, fn) {
    if (array != null && fn != null) {
      for (var i = 0; i < array.length; i++) {
        fn(array[i])
      }
    }

    return array
  },

  /**
	 * Function: remove
	 *
	 * Removes all occurrences of the given object in the given array or
	 * object. If there are multiple occurrences of the object, be they
	 * associative or as an array entry, all occurrences are removed from
	 * the array or deleted from the object. By removing the object from
	 * the array, all elements following the removed element are shifted
	 * by one step towards the beginning of the array.
	 *
	 * The length of arrays is not modified inside this function.
	 *
	 * Parameters:
	 *
	 * obj - Object to find in the given array.
	 * array - Array to check for the given obj.
	 */
  remove: function (obj, array) {
    var result = null

    if (typeof (array) === 'object') {
      var index = mxUtils.indexOf(array, obj)

      while (index >= 0) {
        array.splice(index, 1)
        result = obj
        index = mxUtils.indexOf(array, obj)
      }
    }

    for (var key in array) {
      if (array[key] == obj) {
        delete array[key]
        result = obj
      }
    }

    return result
  },

  /**
	 * Function: isNode
	 *
	 * Returns true if the given value is an XML node with the node name
	 * and if the optional attribute has the specified value.
	 *
	 * This implementation assumes that the given value is a DOM node if the
	 * nodeType property is numeric, that is, if isNaN returns false for
	 * value.nodeType.
	 *
	 * Parameters:
	 *
	 * value - Object that should be examined as a node.
	 * nodeName - String that specifies the node name.
	 * attributeName - Optional attribute name to check.
	 * attributeValue - Optional attribute value to check.
	 */
	 isNode: function (value, nodeName, attributeName, attributeValue) {
	 	if (value != null && !isNaN(value.nodeType) && (nodeName == null ||
	 		value.nodeName.toLowerCase() == nodeName.toLowerCase())) {
 			return attributeName == null ||
 				value.getAttribute(attributeName) == attributeValue
 		}

	 	return false
	 },

  /**
	 * Function: isAncestorNode
	 *
	 * Returns true if the given ancestor is an ancestor of the
	 * given DOM node in the DOM. This also returns true if the
	 * child is the ancestor.
	 *
	 * Parameters:
	 *
	 * ancestor - DOM node that represents the ancestor.
	 * child - DOM node that represents the child.
	 */
	 isAncestorNode: function (ancestor, child) {
	 	var parent = child

	 	while (parent != null) {
	 		if (parent == ancestor) {
	 			return true
	 		}

	 		parent = parent.parentNode
	 	}

	 	return false
	 },

  /**
	 * Function: getChildNodes
	 *
	 * Returns an array of child nodes that are of the given node type.
	 *
	 * Parameters:
	 *
	 * node - Parent DOM node to return the children from.
	 * nodeType - Optional node type to return. Default is
	 * <mxConstants.NODETYPE_ELEMENT>.
	 */
  getChildNodes: function (node, nodeType) {
    nodeType = nodeType || mxConstants.NODETYPE_ELEMENT

    var children = []
    var tmp = node.firstChild

    while (tmp != null) {
      if (tmp.nodeType == nodeType) {
        children.push(tmp)
      }

      tmp = tmp.nextSibling
    }

    return children
  },

  /**
	 * Function: importNode
	 *
	 * Cross browser implementation for document.importNode. Uses document.importNode
	 * in all browsers but IE, where the node is cloned by creating a new node and
	 * copying all attributes and children into it using importNode, recursively.
	 *
	 * Parameters:
	 *
	 * doc - Document to import the node into.
	 * node - Node to be imported.
	 * allChildren - If all children should be imported.
	 */
  importNode: function (doc, node, allChildren) {
    if (mxClient.IS_IE && (document.documentMode == null || document.documentMode < 10)) {
      return mxUtils.importNodeImplementation(doc, node, allChildren)
    } else {
      return doc.importNode(node, allChildren)
    }
  },

  /**
	 * Function: importNodeImplementation
	 *
	 * Full DOM API implementation for importNode without using importNode API call.
	 *
	 * Parameters:
	 *
	 * doc - Document to import the node into.
	 * node - Node to be imported.
	 * allChildren - If all children should be imported.
	 */
  importNodeImplementation: function (doc, node, allChildren) {
    switch (node.nodeType) {
      case 1: /* element */
      {
        var newNode = doc.createElement(node.nodeName)

        if (node.attributes && node.attributes.length > 0) {
          for (var i = 0; i < node.attributes.length; i++) {
            newNode.setAttribute(node.attributes[i].nodeName,
              node.getAttribute(node.attributes[i].nodeName))
          }
        }

        if (allChildren && node.childNodes && node.childNodes.length > 0) {
          for (var i = 0; i < node.childNodes.length; i++) {
            newNode.appendChild(mxUtils.importNodeImplementation(doc, node.childNodes[i], allChildren))
          }
        }

        return newNode
        break
      }
      case 3: /* text */
		    case 4: /* cdata-section */
		    case 8: /* comment */
		    {
		    	return doc.createTextNode((node.nodeValue != null) ? node.nodeValue : node.value)
		    	break
		    }
    };
  },

  /**
	 * Function: createXmlDocument
	 *
	 * Returns a new, empty XML document.
	 */
  createXmlDocument: function () {
    var doc = null

    if (document.implementation && document.implementation.createDocument) {
      doc = document.implementation.createDocument('', '', null)
    } else if ('ActiveXObject' in window) {
      doc = mxUtils.createMsXmlDocument()
	 	}

	 	return doc
  },

  /**
	 * Function: createMsXmlDocument
	 *
	 * Returns a new, empty Microsoft.XMLDOM document using ActiveXObject.
	 */
  createMsXmlDocument: function () {
    var doc = new ActiveXObject('Microsoft.XMLDOM')
    doc.async = false

    // Workaround for parsing errors with SVG DTD
    doc.validateOnParse = false
    doc.resolveExternals = false

	 	return doc
  },

  /**
	 * Function: parseXml
	 *
	 * Parses the specified XML string into a new XML document and returns the
	 * new document.
	 *
	 * Example:
	 *
	 * (code)
	 * var doc = mxUtils.parseXml(
	 *   '<mxGraphModel><root><MyDiagram id="0"><mxCell/></MyDiagram>'+
	 *   '<MyLayer id="1"><mxCell parent="0" /></MyLayer><MyObject id="2">'+
	 *   '<mxCell style="strokeColor=blue;fillColor=red" parent="1" vertex="1">'+
	 *   '<mxGeometry x="10" y="10" width="80" height="30" as="geometry"/>'+
	 *   '</mxCell></MyObject></root></mxGraphModel>');
	 * (end)
	 *
	 * Parameters:
	 *
	 * xml - String that contains the XML data.
	 */
  parseXml: (function () {
    if (window.DOMParser) {
      return function (xml) {
        var parser = new DOMParser()

        return parser.parseFromString(xml, 'text/xml')
      }
    } else // IE<=9
    {
      return function (xml) {
        var doc = mxUtils.createMsXmlDocument()
        doc.loadXML(xml)

        return doc
      }
    }
  }()),

  /**
	 * Function: clearSelection
	 *
	 * Clears the current selection in the page.
	 */
  clearSelection: (function () {
    if (document.selection) {
      return function () {
        document.selection.empty()
      }
    } else if (window.getSelection) {
      return function () {
        if (window.getSelection().empty) {
          window.getSelection().empty()
        } else if (window.getSelection().removeAllRanges) {
          window.getSelection().removeAllRanges()
        }
      }
    } else {
      return function () { }
    }
  }()),

  /**
	 * Function: removeWhitespace
	 *
	 * Removes the sibling text nodes for the given node that only consists
	 * of tabs, newlines and spaces.
	 *
	 * Parameters:
	 *
	 * node - DOM node whose siblings should be removed.
	 * before - Optional boolean that specifies the direction of the traversal.
	 */
  removeWhitespace: function (node, before) {
    var tmp = (before) ? node.previousSibling : node.nextSibling

    while (tmp != null && tmp.nodeType == mxConstants.NODETYPE_TEXT) {
      var next = (before) ? tmp.previousSibling : tmp.nextSibling
      var text = mxUtils.getTextContent(tmp)

      if (mxUtils.trim(text).length == 0) {
        tmp.parentNode.removeChild(tmp)
      }

      tmp = next
    }
  },

  /**
	 * Function: htmlEntities
	 *
	 * Replaces characters (less than, greater than, newlines and quotes) with
	 * their HTML entities in the given string and returns the result.
	 *
	 * Parameters:
	 *
	 * s - String that contains the characters to be converted.
	 * newline - If newlines should be replaced. Default is true.
	 */
  htmlEntities: function (s, newline) {
    s = String(s || '')

    s = s.replace(/&/g, '&amp;') // 38 26
    s = s.replace(/"/g, '&quot;') // 34 22
    s = s.replace(/\'/g, '&#39;') // 39 27
    s = s.replace(/</g, '&lt;') // 60 3C
    s = s.replace(/>/g, '&gt;') // 62 3E

    if (newline == null || newline) {
      s = s.replace(/\n/g, '&#xa;')
    }

    return s
  },

  /**
	 * Function: isVml
	 *
	 * Returns true if the given node is in the VML namespace.
	 *
	 * Parameters:
	 *
	 * node - DOM node whose tag urn should be checked.
	 */
  isVml: function (node) {
    return node != null && node.tagUrn == 'urn:schemas-microsoft-com:vml'
  },

  /**
	 * Function: getXml
	 *
	 * Returns the XML content of the specified node. For Internet Explorer,
	 * all \r\n\t[\t]* are removed from the XML string and the remaining \r\n
	 * are replaced by \n. All \n are then replaced with linefeed, or &#xa; if
	 * no linefeed is defined.
	 *
	 * Parameters:
	 *
	 * node - DOM node to return the XML for.
	 * linefeed - Optional string that linefeeds are converted into. Default is
	 * &#xa;
	 */
  getXml: function (node, linefeed) {
    var xml = ''

    if (mxClient.IS_IE || mxClient.IS_IE11) {
      xml = mxUtils.getPrettyXml(node, '', '', '')
    } else if (window.XMLSerializer != null) {
      var xmlSerializer = new XMLSerializer()
      xml = xmlSerializer.serializeToString(node)
    } else if (node.xml != null) {
      xml = node.xml.replace(/\r\n\t[\t]*/g, '')
        .replace(/>\r\n/g, '>')
        .replace(/\r\n/g, '\n')
    }

    // Replaces linefeeds with HTML Entities.
    linefeed = linefeed || '&#xa;'
    xml = xml.replace(/\n/g, linefeed)

    return xml
  },

  /**
	 * Function: getPrettyXML
	 *
	 * Returns a pretty printed string that represents the XML tree for the
	 * given node. This method should only be used to print XML for reading,
	 * use <getXml> instead to obtain a string for processing.
	 *
	 * Parameters:
	 *
	 * node - DOM node to return the XML for.
	 * tab - Optional string that specifies the indentation for one level.
	 * Default is two spaces.
	 * indent - Optional string that represents the current indentation.
	 * Default is an empty string.
	 * newline - Option string that represents a linefeed. Default is '\n'.
	 */
  getPrettyXml: function (node, tab, indent, newline, ns) {
    var result = []

    if (node != null) {
      tab = (tab != null) ? tab : '  '
      indent = (indent != null) ? indent : ''
      newline = (newline != null) ? newline : '\n'

      if (node.namespaceURI != null && node.namespaceURI != ns) {
        ns = node.namespaceURI

        if (node.getAttribute('xmlns') == null) {
          node.setAttribute('xmlns', node.namespaceURI)
        }
      }

      if (node.nodeType == mxConstants.NODETYPE_DOCUMENT) {
        result.push(mxUtils.getPrettyXml(node.documentElement, tab, indent, newline, ns))
      } else if (node.nodeType == mxConstants.NODETYPE_DOCUMENT_FRAGMENT) {
        var tmp = node.firstChild

        if (tmp != null) {
          while (tmp != null) {
            result.push(mxUtils.getPrettyXml(tmp, tab, indent, newline, ns))
            tmp = tmp.nextSibling
          }
        }
      } else if (node.nodeType == mxConstants.NODETYPE_COMMENT) {
        var value = mxUtils.getTextContent(node)

        if (value.length > 0) {
          result.push(indent + '<!--' + value + '-->' + newline)
        }
      } else if (node.nodeType == mxConstants.NODETYPE_TEXT) {
        var value = mxUtils.getTextContent(node)

        if (value.length > 0) {
          result.push(indent + mxUtils.htmlEntities(mxUtils.trim(value), false) + newline)
        }
      } else {
        result.push(indent + '<' + node.nodeName)

        // Creates the string with the node attributes
        // and converts all HTML entities in the values
        var attrs = node.attributes

        if (attrs != null) {
          for (var i = 0; i < attrs.length; i++) {
            var val = mxUtils.htmlEntities(attrs[i].value)
            result.push(' ' + attrs[i].nodeName + '="' + val + '"')
          }
        }

        // Recursively creates the XML string for each child
        // node and appends it here with an indentation
        var tmp = node.firstChild

        if (tmp != null) {
          result.push('>' + newline)

          while (tmp != null) {
            result.push(mxUtils.getPrettyXml(tmp, tab, indent + tab, newline, ns))
            tmp = tmp.nextSibling
          }

          result.push(indent + '</' + node.nodeName + '>' + newline)
        } else {
          result.push(' />' + newline)
        }
      }
    }

    return result.join('')
  },

  /**
	 * Function: extractTextWithWhitespace
	 *
	 * Returns the text content of the specified node.
	 *
	 * Parameters:
	 *
	 * elems - DOM nodes to return the text for.
	 */
  extractTextWithWhitespace: function (elems) {
	    // Known block elements for handling linefeeds (list is not complete)
    var blocks = ['BLOCKQUOTE', 'DIV', 'H1', 'H2', 'H3', 'H4', 'H5', 'H6', 'OL', 'P', 'PRE', 'TABLE', 'UL']
    var ret = []

    function doExtract (elts) {
      // Single break should be ignored
      if (elts.length == 1 && (elts[0].nodeName == 'BR' ||
				elts[0].innerHTML == '\n')) {
        return
      }

		    for (var i = 0; i < elts.length; i++) {
		        var elem = elts[i]

        // DIV with a br or linefeed forces a linefeed
        if (elem.nodeName == 'BR' || elem.innerHTML == '\n' ||
					((elts.length == 1 || i == 0) && (elem.nodeName == 'DIV' &&
					elem.innerHTML.toLowerCase() == '<br>'))) {
	    			ret.push('\n')
		    	} else {
			        if (elem.nodeType === 3 || elem.nodeType === 4) {
			        	if (elem.nodeValue.length > 0) {
			        		ret.push(elem.nodeValue)
			        	}
			        } else if (elem.nodeType !== 8 && elem.childNodes.length > 0) {
            doExtract(elem.childNodes)
          }

	        		if (i < elts.length - 1 && mxUtils.indexOf(blocks, elts[i + 1].nodeName) >= 0) {
	        			ret.push('\n')
	        		}
        }
		    }
    };

    doExtract(elems)

	    return ret.join('')
  },

  /**
	 * Function: replaceTrailingNewlines
	 *
	 * Replaces each trailing newline with the given pattern.
	 */
  replaceTrailingNewlines: function (str, pattern) {
    // LATER: Check is this can be done with a regular expression
    var postfix = ''

    while (str.length > 0 && str.charAt(str.length - 1) == '\n') {
      str = str.substring(0, str.length - 1)
      postfix += pattern
    }

    return str + postfix
  },

  /**
	 * Function: getTextContent
	 *
	 * Returns the text content of the specified node.
	 *
	 * Parameters:
	 *
	 * node - DOM node to return the text content for.
	 */
  getTextContent: function (node) {
    // Only IE10-
    if (mxClient.IS_IE && node.innerText !== undefined) {
      return node.innerText
    } else {
      return (node != null) ? node[(node.textContent === undefined) ? 'text' : 'textContent'] : ''
    }
  },

  /**
	 * Function: setTextContent
	 *
	 * Sets the text content of the specified node.
	 *
	 * Parameters:
	 *
	 * node - DOM node to set the text content for.
	 * text - String that represents the text content.
	 */
  setTextContent: function (node, text) {
    if (node.innerText !== undefined) {
      node.innerText = text
    } else {
      node[(node.textContent === undefined) ? 'text' : 'textContent'] = text
    }
  },

  /**
	 * Function: getInnerHtml
	 *
	 * Returns the inner HTML for the given node as a string or an empty string
	 * if no node was specified. The inner HTML is the text representing all
	 * children of the node, but not the node itself.
	 *
	 * Parameters:
	 *
	 * node - DOM node to return the inner HTML for.
	 */
  getInnerHtml: (function () {
    if (mxClient.IS_IE) {
      return function (node) {
        if (node != null) {
          return node.innerHTML
        }

        return ''
      }
    } else {
      return function (node) {
        if (node != null) {
          var serializer = new XMLSerializer()
          return serializer.serializeToString(node)
        }

        return ''
      }
    }
  }()),

  /**
	 * Function: getOuterHtml
	 *
	 * Returns the outer HTML for the given node as a string or an empty
	 * string if no node was specified. The outer HTML is the text representing
	 * all children of the node including the node itself.
	 *
	 * Parameters:
	 *
	 * node - DOM node to return the outer HTML for.
	 */
  getOuterHtml: (function () {
    if (mxClient.IS_IE) {
      return function (node) {
        if (node != null) {
          if (node.outerHTML != null) {
            return node.outerHTML
          } else {
            var tmp = []
            tmp.push('<' + node.nodeName)

            var attrs = node.attributes

            if (attrs != null) {
              for (var i = 0; i < attrs.length; i++) {
                var value = attrs[i].value

                if (value != null && value.length > 0) {
                  tmp.push(' ')
                  tmp.push(attrs[i].nodeName)
                  tmp.push('="')
                  tmp.push(value)
                  tmp.push('"')
                }
              }
            }

            if (node.innerHTML.length == 0) {
              tmp.push('/>')
            } else {
              tmp.push('>')
              tmp.push(node.innerHTML)
              tmp.push('</' + node.nodeName + '>')
            }

            return tmp.join('')
          }
        }

        return ''
      }
    } else {
      return function (node) {
        if (node != null) {
          var serializer = new XMLSerializer()
          return serializer.serializeToString(node)
        }

        return ''
      }
    }
  }()),

  /**
	 * Function: write
	 *
	 * Creates a text node for the given string and appends it to the given
	 * parent. Returns the text node.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to append the text node to.
	 * text - String representing the text to be added.
	 */
  write: function (parent, text) {
    var doc = parent.ownerDocument
    var node = doc.createTextNode(text)

    if (parent != null) {
      parent.appendChild(node)
    }

    return node
  },

  /**
	 * Function: writeln
	 *
	 * Creates a text node for the given string and appends it to the given
	 * parent with an additional linefeed. Returns the text node.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to append the text node to.
	 * text - String representing the text to be added.
	 */
  writeln: function (parent, text) {
    var doc = parent.ownerDocument
    var node = doc.createTextNode(text)

    if (parent != null) {
      parent.appendChild(node)
      parent.appendChild(document.createElement('br'))
    }

    return node
  },

  /**
	 * Function: br
	 *
	 * Appends a linebreak to the given parent and returns the linebreak.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to append the linebreak to.
	 */
  br: function (parent, count) {
    count = count || 1
    var br = null

    for (var i = 0; i < count; i++) {
      if (parent != null) {
        br = parent.ownerDocument.createElement('br')
        parent.appendChild(br)
      }
    }

    return br
  },

  /**
	 * Function: button
	 *
	 * Returns a new button with the given level and function as an onclick
	 * event handler.
	 *
	 * (code)
	 * document.body.appendChild(mxUtils.button('Test', function(evt)
	 * {
	 *   alert('Hello, World!');
	 * }));
	 * (end)
	 *
	 * Parameters:
	 *
	 * label - String that represents the label of the button.
	 * funct - Function to be called if the button is pressed.
	 * doc - Optional document to be used for creating the button. Default is the
	 * current document.
	 */
  button: function (label, funct, doc) {
    doc = (doc != null) ? doc : document

    var button = doc.createElement('button')
    mxUtils.write(button, label)

    mxEvent.addListener(button, 'click', function (evt) {
      funct(evt)
    })

    return button
  },

  /**
	 * Function: para
	 *
	 * Appends a new paragraph with the given text to the specified parent and
	 * returns the paragraph.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to append the text node to.
	 * text - String representing the text for the new paragraph.
	 */
  para: function (parent, text) {
    var p = document.createElement('p')
    mxUtils.write(p, text)

    if (parent != null) {
      parent.appendChild(p)
    }

    return p
  },

  /**
	 * Function: addTransparentBackgroundFilter
	 *
	 * Adds a transparent background to the filter of the given node. This
	 * background can be used in IE8 standards mode (native IE8 only) to pass
	 * events through the node.
	 */
  addTransparentBackgroundFilter: function (node) {
    node.style.filter += 'progid:DXImageTransform.Microsoft.AlphaImageLoader(src=\'' +
			mxClient.imageBasePath + '/transparent.gif\', sizingMethod=\'scale\')'
  },

  /**
	 * Function: linkAction
	 *
	 * Adds a hyperlink to the specified parent that invokes action on the
	 * specified editor.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to contain the new link.
	 * text - String that is used as the link label.
	 * editor - <mxEditor> that will execute the action.
	 * action - String that defines the name of the action to be executed.
	 * pad - Optional left-padding for the link. Default is 0.
	 */
  linkAction: function (parent, text, editor, action, pad) {
    return mxUtils.link(parent, text, function () {
      editor.execute(action)
    }, pad)
  },

  /**
	 * Function: linkInvoke
	 *
	 * Adds a hyperlink to the specified parent that invokes the specified
	 * function on the editor passing along the specified argument. The
	 * function name is the name of a function of the editor instance,
	 * not an action name.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to contain the new link.
	 * text - String that is used as the link label.
	 * editor - <mxEditor> instance to execute the function on.
	 * functName - String that represents the name of the function.
	 * arg - Object that represents the argument to the function.
	 * pad - Optional left-padding for the link. Default is 0.
	 */
  linkInvoke: function (parent, text, editor, functName, arg, pad) {
    return mxUtils.link(parent, text, function () {
      editor[functName](arg)
    }, pad)
  },

  /**
	 * Function: link
	 *
	 * Adds a hyperlink to the specified parent and invokes the given function
	 * when the link is clicked.
	 *
	 * Parameters:
	 *
	 * parent - DOM node to contain the new link.
	 * text - String that is used as the link label.
	 * funct - Function to execute when the link is clicked.
	 * pad - Optional left-padding for the link. Default is 0.
	 */
  link: function (parent, text, funct, pad) {
    var a = document.createElement('span')

    a.style.color = 'blue'
    a.style.textDecoration = 'underline'
    a.style.cursor = 'pointer'

    if (pad != null) {
      a.style.paddingLeft = pad + 'px'
    }

    mxEvent.addListener(a, 'click', funct)
    mxUtils.write(a, text)

    if (parent != null) {
      parent.appendChild(a)
    }

    return a
  },

  /**
	 * Function: getDocumentSize
	 *
	 * Returns the client size for the current document as an <mxRectangle>.
	 */
  getDocumentSize: function () {
    var b = document.body
    var d = document.documentElement

    try {
      return new mxRectangle(0, 0, b.clientWidth || d.clientWidth, Math.max(b.clientHeight || 0, d.clientHeight))
    } catch (e) {
      return new mxRectangle()
    }
  },

  /**
	 * Function: fit
	 *
	 * Makes sure the given node is inside the visible area of the window. This
	 * is done by setting the left and top in the style.
	 */
  fit: function (node) {
    var ds = mxUtils.getDocumentSize()
    var left = parseInt(node.offsetLeft)
    var width = parseInt(node.offsetWidth)

    var offset = mxUtils.getDocumentScrollOrigin(node.ownerDocument)
    var sl = offset.x
    var st = offset.y

    var b = document.body
    var d = document.documentElement
    var right = (sl) + ds.width

    if (left + width > right) {
      node.style.left = Math.max(sl, right - width) + 'px'
    }

    var top = parseInt(node.offsetTop)
    var height = parseInt(node.offsetHeight)

    var bottom = st + ds.height

    if (top + height > bottom) {
      node.style.top = Math.max(st, bottom - height) + 'px'
    }
  },

  /**
	 * Function: load
	 *
	 * Loads the specified URL *synchronously* and returns the <mxXmlRequest>.
	 * Throws an exception if the file cannot be loaded. See <mxUtils.get> for
	 * an asynchronous implementation.
	 *
	 * Example:
	 *
	 * (code)
	 * try
	 * {
	 *   var req = mxUtils.load(filename);
	 *   var root = req.getDocumentElement();
	 *   // Process XML DOM...
	 * }
	 * catch (ex)
	 * {
	 *   mxUtils.alert('Cannot load '+filename+': '+ex);
	 * }
	 * (end)
	 *
	 * Parameters:
	 *
	 * url - URL to get the data from.
	 */
  load: function (url) {
    var req = new mxXmlRequest(url, null, 'GET', false)
    req.send()

    return req
  },

  /**
	 * Function: get
	 *
	 * Loads the specified URL *asynchronously* and invokes the given functions
	 * depending on the request status. Returns the <mxXmlRequest> in use. Both
	 * functions take the <mxXmlRequest> as the only parameter. See
	 * <mxUtils.load> for a synchronous implementation.
	 *
	 * Example:
	 *
	 * (code)
	 * mxUtils.get(url, function(req)
	 * {
	 *    var node = req.getDocumentElement();
	 *    // Process XML DOM...
	 * });
	 * (end)
	 *
	 * So for example, to load a diagram into an existing graph model, the
	 * following code is used.
	 *
	 * (code)
	 * mxUtils.get(url, function(req)
	 * {
	 *   var node = req.getDocumentElement();
	 *   var dec = new mxCodec(node.ownerDocument);
	 *   dec.decode(node, graph.getModel());
	 * });
	 * (end)
	 *
	 * Parameters:
	 *
	 * url - URL to get the data from.
	 * onload - Optional function to execute for a successful response.
	 * onerror - Optional function to execute on error.
	 * binary - Optional boolean parameter that specifies if the request is
	 * binary.
	 * timeout - Optional timeout in ms before calling ontimeout.
	 * ontimeout - Optional function to execute on timeout.
	 * headers - Optional with headers, eg. {'Authorization': 'token xyz'}
	 */
  get: function (url, onload, onerror, binary, timeout, ontimeout, headers) {
    var req = new mxXmlRequest(url, null, 'GET')
    var setRequestHeaders = req.setRequestHeaders

    if (headers) {
      req.setRequestHeaders = function (request, params) {
        setRequestHeaders.apply(this, arguments)

        for (var key in headers) {
          request.setRequestHeader(key, headers[key])
        }
      }
    }

    if (binary != null) {
      req.setBinary(binary)
    }

    req.send(onload, onerror, timeout, ontimeout)

    return req
  },

  /**
	 * Function: getAll
	 *
	 * Loads the URLs in the given array *asynchronously* and invokes the given function
	 * if all requests returned with a valid 2xx status. The error handler is invoked
	 * once on the first error or invalid response.
	 *
	 * Parameters:
	 *
	 * urls - Array of URLs to be loaded.
	 * onload - Callback with array of <mxXmlRequests>.
	 * onerror - Optional function to execute on error.
	 */
  getAll: function (urls, onload, onerror) {
    var remain = urls.length
    var result = []
    var errors = 0
    var err = function () {
      if (errors == 0 && onerror != null) {
        onerror()
      }

      errors++
    }

    for (var i = 0; i < urls.length; i++) {
      (function (url, index) {
        mxUtils.get(url, function (req) {
          var status = req.getStatus()

          if (status < 200 || status > 299) {
            err()
          } else {
            result[index] = req
            remain--

            if (remain == 0) {
              onload(result)
            }
          }
        }, err)
      })(urls[i], i)
    }

    if (remain == 0) {
      onload(result)
    }
  },

  /**
	 * Function: post
	 *
	 * Posts the specified params to the given URL *asynchronously* and invokes
	 * the given functions depending on the request status. Returns the
	 * <mxXmlRequest> in use. Both functions take the <mxXmlRequest> as the
	 * only parameter. Make sure to use encodeURIComponent for the parameter
	 * values.
	 *
	 * Example:
	 *
	 * (code)
	 * mxUtils.post(url, 'key=value', function(req)
	 * {
	 * 	mxUtils.alert('Ready: '+req.isReady()+' Status: '+req.getStatus());
	 *  // Process req.getDocumentElement() using DOM API if OK...
	 * });
	 * (end)
	 *
	 * Parameters:
	 *
	 * url - URL to get the data from.
	 * params - Parameters for the post request.
	 * onload - Optional function to execute for a successful response.
	 * onerror - Optional function to execute on error.
	 */
  post: function (url, params, onload, onerror) {
    return new mxXmlRequest(url, params).send(onload, onerror)
  },

  /**
	 * Function: submit
	 *
	 * Submits the given parameters to the specified URL using
	 * <mxXmlRequest.simulate> and returns the <mxXmlRequest>.
	 * Make sure to use encodeURIComponent for the parameter
	 * values.
	 *
	 * Parameters:
	 *
	 * url - URL to get the data from.
	 * params - Parameters for the form.
	 * doc - Document to create the form in.
	 * target - Target to send the form result to.
	 */
  submit: function (url, params, doc, target) {
    return new mxXmlRequest(url, params).simulate(doc, target)
  },

  /**
	 * Function: loadInto
	 *
	 * Loads the specified URL *asynchronously* into the specified document,
	 * invoking onload after the document has been loaded. This implementation
	 * does not use <mxXmlRequest>, but the document.load method.
	 *
	 * Parameters:
	 *
	 * url - URL to get the data from.
	 * doc - The document to load the URL into.
	 * onload - Function to execute when the URL has been loaded.
	 */
  loadInto: function (url, doc, onload) {
    if (mxClient.IS_IE) {
      doc.onreadystatechange = function () {
        if (doc.readyState == 4) {
          onload()
        }
      }
    } else {
      doc.addEventListener('load', onload, false)
    }

    doc.load(url)
  },

  /**
	 * Function: getValue
	 *
	 * Returns the value for the given key in the given associative array or
	 * the given default value if the value is null.
	 *
	 * Parameters:
	 *
	 * array - Associative array that contains the value for the key.
	 * key - Key whose value should be returned.
	 * defaultValue - Value to be returned if the value for the given
	 * key is null.
	 */
  getValue: function (array, key, defaultValue) {
    var value = (array != null) ? array[key] : null

    if (value == null) {
      value = defaultValue
    }

    return value
  },

  /**
	 * Function: getNumber
	 *
	 * Returns the numeric value for the given key in the given associative
	 * array or the given default value (or 0) if the value is null. The value
	 * is converted to a numeric value using the Number function.
	 *
	 * Parameters:
	 *
	 * array - Associative array that contains the value for the key.
	 * key - Key whose value should be returned.
	 * defaultValue - Value to be returned if the value for the given
	 * key is null. Default is 0.
	 */
  getNumber: function (array, key, defaultValue) {
    var value = (array != null) ? array[key] : null

    if (value == null) {
      value = defaultValue || 0
    }

    return Number(value)
  },

  /**
	 * Function: getColor
	 *
	 * Returns the color value for the given key in the given associative
	 * array or the given default value if the value is null. If the value
	 * is <mxConstants.NONE> then null is returned.
	 *
	 * Parameters:
	 *
	 * array - Associative array that contains the value for the key.
	 * key - Key whose value should be returned.
	 * defaultValue - Value to be returned if the value for the given
	 * key is null. Default is null.
	 */
  getColor: function (array, key, defaultValue) {
    var value = (array != null) ? array[key] : null

    if (value == null) {
      value = defaultValue
    } else if (value == mxConstants.NONE) {
      value = null
    }

    return value
  },

  /**
	 * Function: clone
	 *
	 * Recursively clones the specified object ignoring all fieldnames in the
	 * given array of transient fields. <mxObjectIdentity.FIELD_NAME> is always
	 * ignored by this function.
	 *
	 * Parameters:
	 *
	 * obj - Object to be cloned.
	 * transients - Optional array of strings representing the fieldname to be
	 * ignored.
	 * shallow - Optional boolean argument to specify if a shallow clone should
	 * be created, that is, one where all object references are not cloned or,
	 * in other words, one where only atomic (strings, numbers) values are
	 * cloned. Default is false.
	 */
  clone: function (obj, transients, shallow) {
    shallow = (shallow != null) ? shallow : false
    var clone = null

    if (obj != null && typeof (obj.constructor) === 'function') {
      clone = new obj.constructor()

		    for (var i in obj) {
		    	if (i != mxObjectIdentity.FIELD_NAME && (transients == null ||
		    		mxUtils.indexOf(transients, i) < 0)) {
			    	if (!shallow && typeof (obj[i]) === 'object') {
			            clone[i] = mxUtils.clone(obj[i])
			        } else {
			            clone[i] = obj[i]
			        }
        }
		    }
    }

	    return clone
  },

  /**
	 * Function: equalPoints
	 *
	 * Compares all mxPoints in the given lists.
	 *
	 * Parameters:
	 *
	 * a - Array of <mxPoints> to be compared.
	 * b - Array of <mxPoints> to be compared.
	 */
  equalPoints: function (a, b) {
    if ((a == null && b != null) || (a != null && b == null) ||
			(a != null && b != null && a.length != b.length)) {
      return false
    } else if (a != null && b != null) {
      for (var i = 0; i < a.length; i++) {
        if ((a[i] != null && b[i] == null) ||
					(a[i] == null && b[i] != null) ||
					(a[i] != null && b[i] != null &&
					(a[i].x != b[i].x || a[i].y != b[i].y))) {
          return false
        }
      }
    }

    return true
  },

  /**
	 * Function: equalEntries
	 *
	 * Returns true if all properties of the given objects are equal. Values
	 * with NaN are equal to NaN and unequal to any other value.
	 *
	 * Parameters:
	 *
	 * a - First object to be compared.
	 * b - Second object to be compared.
	 */
  equalEntries: function (a, b) {
    // Counts keys in b to check if all values have been compared
    var count = 0

    if ((a == null && b != null) || (a != null && b == null) ||
			(a != null && b != null && a.length != b.length)) {
      return false
    } else if (a != null && b != null) {
      for (var key in b) {
        count++
      }

      for (var key in a) {
        count--

        if ((!mxUtils.isNaN(a[key]) || !mxUtils.isNaN(b[key])) && a[key] != b[key]) {
          return false
        }
      }
    }

    return count == 0
  },

  /**
	 * Function: removeDuplicates
	 *
	 * Removes all duplicates from the given array.
	 */
  removeDuplicates: function (arr) {
    var dict = new mxDictionary()
    var result = []

    for (var i = 0; i < arr.length; i++) {
      if (!dict.get(arr[i])) {
        result.push(arr[i])
        dict.put(arr[i], true)
      }
    }

    return result
  },

  /**
	 * Function: isNaN
	 *
	 * Returns true if the given value is of type number and isNaN returns true.
	 */
  isNaN: function (value) {
    return typeof (value) === 'number' && isNaN(value)
  },

  /**
	 * Function: extend
	 *
	 * Assigns a copy of the superclass prototype to the subclass prototype.
	 * Note that this does not call the constructor of the superclass at this
	 * point, the superclass constructor should be called explicitely in the
	 * subclass constructor. Below is an example.
	 *
	 * (code)
	 * MyGraph = function(container, model, renderHint, stylesheet)
	 * {
	 *   mxGraph.call(this, container, model, renderHint, stylesheet);
	 * }
	 *
	 * mxUtils.extend(MyGraph, mxGraph);
	 * (end)
	 *
	 * Parameters:
	 *
	 * ctor - Constructor of the subclass.
	 * superCtor - Constructor of the superclass.
	 */
  extend: function (ctor, superCtor) {
    var f = function () {}
    f.prototype = superCtor.prototype

    ctor.prototype = new f()
    ctor.prototype.constructor = ctor
  },

  /**
	 * Function: toString
	 *
	 * Returns a textual representation of the specified object.
	 *
	 * Parameters:
	 *
	 * obj - Object to return the string representation for.
	 */
  toString: function (obj) {
	    var output = ''

	    for (var i in obj) {
	    	try {
			    if (obj[i] == null) {
		            output += i + ' = [null]\n'
			    } else if (typeof (obj[i]) === 'function') {
		            output += i + ' => [Function]\n'
		        } else if (typeof (obj[i]) === 'object') {
		        	var ctor = mxUtils.getFunctionName(obj[i].constructor)
		            output += i + ' => [' + ctor + ']\n'
		        } else {
		            output += i + ' = ' + obj[i] + '\n'
		        }
	    	} catch (e) {
	    		output += i + '=' + e.message
	    	}
	    }

	    return output
  },

  /**
	 * Function: toRadians
	 *
	 * Converts the given degree to radians.
	 */
  toRadians: function (deg) {
    return Math.PI * deg / 180
  },

  /**
	 * Function: toDegree
	 *
	 * Converts the given radians to degree.
	 */
  toDegree: function (rad) {
    return rad * 180 / Math.PI
  },

  /**
	 * Function: arcToCurves
	 *
	 * Converts the given arc to a series of curves.
	 */
  arcToCurves: function (x0, y0, r1, r2, angle, largeArcFlag, sweepFlag, x, y) {
    x -= x0
    y -= y0

    if (r1 === 0 || r2 === 0) {
        	return result
    }

    var fS = sweepFlag
    var psai = angle
    r1 = Math.abs(r1)
    r2 = Math.abs(r2)
    var ctx = -x / 2
    var cty = -y / 2
    var cpsi = Math.cos(psai * Math.PI / 180)
    var spsi = Math.sin(psai * Math.PI / 180)
    var rxd = cpsi * ctx + spsi * cty
    var ryd = -1 * spsi * ctx + cpsi * cty
    var rxdd = rxd * rxd
    var rydd = ryd * ryd
    var r1x = r1 * r1
    var r2y = r2 * r2
    var lamda = rxdd / r1x + rydd / r2y
    var sds

    if (lamda > 1) {
        	r1 = Math.sqrt(lamda) * r1
        	r2 = Math.sqrt(lamda) * r2
        	sds = 0
    } else {
        	var seif = 1

        	if (largeArcFlag === fS) {
        		seif = -1
        	}

        	sds = seif * Math.sqrt((r1x * r2y - r1x * rydd - r2y * rxdd) / (r1x * rydd + r2y * rxdd))
    }

    var txd = sds * r1 * ryd / r2
    var tyd = -1 * sds * r2 * rxd / r1
    var tx = cpsi * txd - spsi * tyd + x / 2
    var ty = spsi * txd + cpsi * tyd + y / 2
    var rad = Math.atan2((ryd - tyd) / r2, (rxd - txd) / r1) - Math.atan2(0, 1)
    var s1 = (rad >= 0) ? rad : 2 * Math.PI + rad
    rad = Math.atan2((-ryd - tyd) / r2, (-rxd - txd) / r1) - Math.atan2((ryd - tyd) / r2, (rxd - txd) / r1)
    var dr = (rad >= 0) ? rad : 2 * Math.PI + rad

    if (fS == 0 && dr > 0) {
        	dr -= 2 * Math.PI
    } else if (fS != 0 && dr < 0) {
        	dr += 2 * Math.PI
    }

    var sse = dr * 2 / Math.PI
    var seg = Math.ceil(sse < 0 ? -1 * sse : sse)
    var segr = dr / seg
    var t = 8 / 3 * Math.sin(segr / 4) * Math.sin(segr / 4) / Math.sin(segr / 2)
    var cpsir1 = cpsi * r1
    var cpsir2 = cpsi * r2
    var spsir1 = spsi * r1
    var spsir2 = spsi * r2
    var mc = Math.cos(s1)
    var ms = Math.sin(s1)
    var x2 = -t * (cpsir1 * ms + spsir2 * mc)
    var y2 = -t * (spsir1 * ms - cpsir2 * mc)
    var x3 = 0
    var y3 = 0

    var result = []

    for (var n = 0; n < seg; ++n) {
      s1 += segr
      mc = Math.cos(s1)
      ms = Math.sin(s1)

      x3 = cpsir1 * mc - spsir2 * ms + tx
      y3 = spsir1 * mc + cpsir2 * ms + ty
      var dx = -t * (cpsir1 * ms + spsir2 * mc)
      var dy = -t * (spsir1 * ms - cpsir2 * mc)

      // CurveTo updates x0, y0 so need to restore it
      var index = n * 6
      result[index] = Number(x2 + x0)
      result[index + 1] = Number(y2 + y0)
      result[index + 2] = Number(x3 - dx + x0)
      result[index + 3] = Number(y3 - dy + y0)
      result[index + 4] = Number(x3 + x0)
      result[index + 5] = Number(y3 + y0)

      x2 = x3 + dx
      y2 = y3 + dy
    }

    return result
  },

  /**
	 * Function: getBoundingBox
	 *
	 * Returns the bounding box for the rotated rectangle.
	 *
	 * Parameters:
	 *
	 * rect - <mxRectangle> to be rotated.
	 * angle - Number that represents the angle (in degrees).
	 * cx - Optional <mxPoint> that represents the rotation center. If no
	 * rotation center is given then the center of rect is used.
	 */
  getBoundingBox: function (rect, rotation, cx) {
    var result = null

    if (rect != null && rotation != null && rotation != 0) {
      var rad = mxUtils.toRadians(rotation)
      var cos = Math.cos(rad)
      var sin = Math.sin(rad)

      cx = (cx != null) ? cx : new mxPoint(rect.x + rect.width / 2, rect.y + rect.height / 2)

      var p1 = new mxPoint(rect.x, rect.y)
      var p2 = new mxPoint(rect.x + rect.width, rect.y)
      var p3 = new mxPoint(p2.x, rect.y + rect.height)
      var p4 = new mxPoint(rect.x, p3.y)

      p1 = mxUtils.getRotatedPoint(p1, cos, sin, cx)
      p2 = mxUtils.getRotatedPoint(p2, cos, sin, cx)
      p3 = mxUtils.getRotatedPoint(p3, cos, sin, cx)
      p4 = mxUtils.getRotatedPoint(p4, cos, sin, cx)

      result = new mxRectangle(p1.x, p1.y, 0, 0)
      result.add(new mxRectangle(p2.x, p2.y, 0, 0))
      result.add(new mxRectangle(p3.x, p3.y, 0, 0))
      result.add(new mxRectangle(p4.x, p4.y, 0, 0))
    }

    return result
  },

  /**
	 * Function: getRotatedPoint
	 *
	 * Rotates the given point by the given cos and sin.
	 */
  getRotatedPoint: function (pt, cos, sin, c) {
    c = (c != null) ? c : new mxPoint()
    var x = pt.x - c.x
    var y = pt.y - c.y

    var x1 = x * cos - y * sin
    var y1 = y * cos + x * sin

    return new mxPoint(x1 + c.x, y1 + c.y)
  },

  /**
	 * Returns an integer mask of the port constraints of the given map
	 * @param dict the style map to determine the port constraints for
	 * @param defaultValue Default value to return if the key is undefined.
	 * @return the mask of port constraint directions
	 *
	 * Parameters:
	 *
	 * terminal - <mxCelState> that represents the terminal.
	 * edge - <mxCellState> that represents the edge.
	 * source - Boolean that specifies if the terminal is the source terminal.
	 * defaultValue - Default value to be returned.
	 */
  getPortConstraints: function (terminal, edge, source, defaultValue) {
    var value = mxUtils.getValue(terminal.style, mxConstants.STYLE_PORT_CONSTRAINT,
      mxUtils.getValue(edge.style, (source) ? mxConstants.STYLE_SOURCE_PORT_CONSTRAINT
        : mxConstants.STYLE_TARGET_PORT_CONSTRAINT, null))

    if (value == null) {
      return defaultValue
    } else {
      var directions = value.toString()
      var returnValue = mxConstants.DIRECTION_MASK_NONE
      var constraintRotationEnabled = mxUtils.getValue(terminal.style, mxConstants.STYLE_PORT_CONSTRAINT_ROTATION, 0)
      var rotation = 0

      if (constraintRotationEnabled == 1) {
        rotation = mxUtils.getValue(terminal.style, mxConstants.STYLE_ROTATION, 0)
      }

      var quad = 0

      if (rotation > 45) {
        quad = 1

        if (rotation >= 135) {
          quad = 2
        }
      } else if (rotation < -45) {
        quad = 3

        if (rotation <= -135) {
          quad = 2
        }
      }

      if (directions.indexOf(mxConstants.DIRECTION_NORTH) >= 0) {
        switch (quad) {
          case 0:
            returnValue |= mxConstants.DIRECTION_MASK_NORTH
            break
          case 1:
            returnValue |= mxConstants.DIRECTION_MASK_EAST
            break
          case 2:
            returnValue |= mxConstants.DIRECTION_MASK_SOUTH
            break
          case 3:
            returnValue |= mxConstants.DIRECTION_MASK_WEST
            break
        }
      }
      if (directions.indexOf(mxConstants.DIRECTION_WEST) >= 0) {
        switch (quad) {
          case 0:
            returnValue |= mxConstants.DIRECTION_MASK_WEST
            break
          case 1:
            returnValue |= mxConstants.DIRECTION_MASK_NORTH
            break
          case 2:
            returnValue |= mxConstants.DIRECTION_MASK_EAST
            break
          case 3:
            returnValue |= mxConstants.DIRECTION_MASK_SOUTH
            break
        }
      }
      if (directions.indexOf(mxConstants.DIRECTION_SOUTH) >= 0) {
        switch (quad) {
          case 0:
            returnValue |= mxConstants.DIRECTION_MASK_SOUTH
            break
          case 1:
            returnValue |= mxConstants.DIRECTION_MASK_WEST
            break
          case 2:
            returnValue |= mxConstants.DIRECTION_MASK_NORTH
            break
          case 3:
            returnValue |= mxConstants.DIRECTION_MASK_EAST
            break
        }
      }
      if (directions.indexOf(mxConstants.DIRECTION_EAST) >= 0) {
        switch (quad) {
          case 0:
            returnValue |= mxConstants.DIRECTION_MASK_EAST
            break
          case 1:
            returnValue |= mxConstants.DIRECTION_MASK_SOUTH
            break
          case 2:
            returnValue |= mxConstants.DIRECTION_MASK_WEST
            break
          case 3:
            returnValue |= mxConstants.DIRECTION_MASK_NORTH
            break
        }
      }

      return returnValue
    }
  },

  /**
	 * Function: reversePortConstraints
	 *
	 * Reverse the port constraint bitmask. For example, north | east
	 * becomes south | west
	 */
  reversePortConstraints: function (constraint) {
    var result = 0

    result = (constraint & mxConstants.DIRECTION_MASK_WEST) << 3
    result |= (constraint & mxConstants.DIRECTION_MASK_NORTH) << 1
    result |= (constraint & mxConstants.DIRECTION_MASK_SOUTH) >> 1
    result |= (constraint & mxConstants.DIRECTION_MASK_EAST) >> 3

    return result
  },

  /**
	 * Function: findNearestSegment
	 *
	 * Finds the index of the nearest segment on the given cell state for
	 * the specified coordinate pair.
	 */
  findNearestSegment: function (state, x, y) {
    var index = -1

    if (state.absolutePoints.length > 0) {
      var last = state.absolutePoints[0]
      var min = null

      for (var i = 1; i < state.absolutePoints.length; i++) {
        var current = state.absolutePoints[i]
        var dist = mxUtils.ptSegDistSq(last.x, last.y,
          current.x, current.y, x, y)

        if (min == null || dist < min) {
          min = dist
          index = i - 1
        }

        last = current
      }
    }

    return index
  },

  /**
	 * Function: getDirectedBounds
	 *
	 * Adds the given margins to the given rectangle and rotates and flips the
	 * rectangle according to the respective styles in style.
	 */
  getDirectedBounds: function (rect, m, style, flipH, flipV) {
    var d = mxUtils.getValue(style, mxConstants.STYLE_DIRECTION, mxConstants.DIRECTION_EAST)
    flipH = (flipH != null) ? flipH : mxUtils.getValue(style, mxConstants.STYLE_FLIPH, false)
    flipV = (flipV != null) ? flipV : mxUtils.getValue(style, mxConstants.STYLE_FLIPV, false)

    m.x = Math.round(Math.max(0, Math.min(rect.width, m.x)))
    m.y = Math.round(Math.max(0, Math.min(rect.height, m.y)))
    m.width = Math.round(Math.max(0, Math.min(rect.width, m.width)))
    m.height = Math.round(Math.max(0, Math.min(rect.height, m.height)))

    if ((flipV && (d == mxConstants.DIRECTION_SOUTH || d == mxConstants.DIRECTION_NORTH)) ||
			(flipH && (d == mxConstants.DIRECTION_EAST || d == mxConstants.DIRECTION_WEST))) {
      var tmp = m.x
      m.x = m.width
      m.width = tmp
    }

    if ((flipH && (d == mxConstants.DIRECTION_SOUTH || d == mxConstants.DIRECTION_NORTH)) ||
			(flipV && (d == mxConstants.DIRECTION_EAST || d == mxConstants.DIRECTION_WEST))) {
      var tmp = m.y
      m.y = m.height
      m.height = tmp
    }

    var m2 = mxRectangle.fromRectangle(m)

    if (d == mxConstants.DIRECTION_SOUTH) {
      m2.y = m.x
      m2.x = m.height
      m2.width = m.y
      m2.height = m.width
    } else if (d == mxConstants.DIRECTION_WEST) {
      m2.y = m.height
      m2.x = m.width
      m2.width = m.x
      m2.height = m.y
    } else if (d == mxConstants.DIRECTION_NORTH) {
      m2.y = m.width
      m2.x = m.y
      m2.width = m.height
      m2.height = m.x
    }

    return new mxRectangle(rect.x + m2.x, rect.y + m2.y, rect.width - m2.width - m2.x, rect.height - m2.height - m2.y)
  },

  /**
	 * Function: getPerimeterPoint
	 *
	 * Returns the intersection between the polygon defined by the array of
	 * points and the line between center and point.
	 */
  getPerimeterPoint: function (pts, center, point) {
    var min = null

    for (var i = 0; i < pts.length - 1; i++) {
      var pt = mxUtils.intersection(pts[i].x, pts[i].y, pts[i + 1].x, pts[i + 1].y,
        center.x, center.y, point.x, point.y)

      if (pt != null) {
        var dx = point.x - pt.x
        var dy = point.y - pt.y
        var ip = { p: pt, distSq: dy * dy + dx * dx }

        if (ip != null && (min == null || min.distSq > ip.distSq)) {
          min = ip
        }
      }
    }

    return (min != null) ? min.p : null
  },

  /**
	 * Function: rectangleIntersectsSegment
	 *
	 * Returns true if the given rectangle intersects the given segment.
	 *
	 * Parameters:
	 *
	 * bounds - <mxRectangle> that represents the rectangle.
	 * p1 - <mxPoint> that represents the first point of the segment.
	 * p2 - <mxPoint> that represents the second point of the segment.
	 */
  rectangleIntersectsSegment: function (bounds, p1, p2) {
    var top = bounds.y
    var left = bounds.x
    var bottom = top + bounds.height
    var right = left + bounds.width

    // Find min and max X for the segment
    var minX = p1.x
    var maxX = p2.x

    if (p1.x > p2.x) {
		  minX = p2.x
		  maxX = p1.x
    }

    // Find the intersection of the segment's and rectangle's x-projections
    if (maxX > right) {
		  maxX = right
    }

    if (minX < left) {
		  minX = left
    }

    if (minX > maxX) // If their projections do not intersect return false
    {
		  return false
    }

    // Find corresponding min and max Y for min and max X we found before
    var minY = p1.y
    var maxY = p2.y
    var dx = p2.x - p1.x

    if (Math.abs(dx) > 0.0000001) {
		  var a = (p2.y - p1.y) / dx
		  var b = p1.y - a * p1.x
		  minY = a * minX + b
		  maxY = a * maxX + b
    }

    if (minY > maxY) {
		  var tmp = maxY
		  maxY = minY
		  minY = tmp
    }

    // Find the intersection of the segment's and rectangle's y-projections
    if (maxY > bottom) {
		  maxY = bottom
    }

    if (minY < top) {
		  minY = top
    }

    if (minY > maxY) // If Y-projections do not intersect return false
    {
		  return false
    }

    return true
  },

  /**
	 * Function: contains
	 *
	 * Returns true if the specified point (x, y) is contained in the given rectangle.
	 *
	 * Parameters:
	 *
	 * bounds - <mxRectangle> that represents the area.
	 * x - X-coordinate of the point.
	 * y - Y-coordinate of the point.
	 */
  contains: function (bounds, x, y) {
    return (bounds.x <= x && bounds.x + bounds.width >= x &&
				bounds.y <= y && bounds.y + bounds.height >= y)
  },

  /**
	 * Function: intersects
	 *
	 * Returns true if the two rectangles intersect.
	 *
	 * Parameters:
	 *
	 * a - <mxRectangle> to be checked for intersection.
	 * b - <mxRectangle> to be checked for intersection.
	 */
  intersects: function (a, b) {
    var tw = a.width
    var th = a.height
    var rw = b.width
    var rh = b.height

    if (rw <= 0 || rh <= 0 || tw <= 0 || th <= 0) {
		    return false
    }

    var tx = a.x
    var ty = a.y
    var rx = b.x
    var ry = b.y

    rw += rx
    rh += ry
    tw += tx
    th += ty

    return ((rw < rx || rw > tx) &&
			(rh < ry || rh > ty) &&
			(tw < tx || tw > rx) &&
			(th < ty || th > ry))
  },

  /**
	 * Function: intersects
	 *
	 * Returns true if the two rectangles intersect.
	 *
	 * Parameters:
	 *
	 * a - <mxRectangle> to be checked for intersection.
	 * b - <mxRectangle> to be checked for intersection.
	 */
  intersectsHotspot: function (state, x, y, hotspot, min, max) {
    hotspot = (hotspot != null) ? hotspot : 1
    min = (min != null) ? min : 0
    max = (max != null) ? max : 0

    if (hotspot > 0) {
      var cx = state.getCenterX()
      var cy = state.getCenterY()
      var w = state.width
      var h = state.height

      var start = mxUtils.getValue(state.style, mxConstants.STYLE_STARTSIZE) * state.view.scale

      if (start > 0) {
        if (mxUtils.getValue(state.style, mxConstants.STYLE_HORIZONTAL, true)) {
          cy = state.y + start / 2
          h = start
        } else {
          cx = state.x + start / 2
          w = start
        }
      }

      w = Math.max(min, w * hotspot)
      h = Math.max(min, h * hotspot)

      if (max > 0) {
        w = Math.min(w, max)
        h = Math.min(h, max)
      }

      var rect = new mxRectangle(cx - w / 2, cy - h / 2, w, h)
      var alpha = mxUtils.toRadians(mxUtils.getValue(state.style, mxConstants.STYLE_ROTATION) || 0)

      if (alpha != 0) {
        var cos = Math.cos(-alpha)
        var sin = Math.sin(-alpha)
        var cx = new mxPoint(state.getCenterX(), state.getCenterY())
        var pt = mxUtils.getRotatedPoint(new mxPoint(x, y), cos, sin, cx)
        x = pt.x
        y = pt.y
      }

      return mxUtils.contains(rect, x, y)
    }

    return true
  },

  /**
	 * Function: getOffset
	 *
	 * Returns the offset for the specified container as an <mxPoint>. The
	 * offset is the distance from the top left corner of the container to the
	 * top left corner of the document.
	 *
	 * Parameters:
	 *
	 * container - DOM node to return the offset for.
	 * scollOffset - Optional boolean to add the scroll offset of the document.
	 * Default is false.
	 */
  getOffset: function (container, scrollOffset) {
    var offsetLeft = 0
    var offsetTop = 0

    // Ignores document scroll origin for fixed elements
    var fixed = false
    var node = container
    var b = document.body
    var d = document.documentElement

    while (node != null && node != b && node != d && !fixed) {
      var style = mxUtils.getCurrentStyle(node)

      if (style != null) {
        fixed = fixed || style.position == 'fixed'
      }

      node = node.parentNode
    }

    if (!scrollOffset && !fixed) {
      var offset = mxUtils.getDocumentScrollOrigin(container.ownerDocument)
      offsetLeft += offset.x
      offsetTop += offset.y
    }

    var r = container.getBoundingClientRect()

    if (r != null) {
      offsetLeft += r.left
      offsetTop += r.top
    }

    return new mxPoint(offsetLeft, offsetTop)
  },

  /**
	 * Function: getDocumentScrollOrigin
	 *
	 * Returns the scroll origin of the given document or the current document
	 * if no document is given.
	 */
  getDocumentScrollOrigin: function (doc) {
    if (mxClient.IS_QUIRKS) {
      return new mxPoint(doc.body.scrollLeft, doc.body.scrollTop)
    } else {
      var wnd = doc.defaultView || doc.parentWindow

      var x = (wnd != null && window.pageXOffset !== undefined) ? window.pageXOffset : (document.documentElement || document.body.parentNode || document.body).scrollLeft
      var y = (wnd != null && window.pageYOffset !== undefined) ? window.pageYOffset : (document.documentElement || document.body.parentNode || document.body).scrollTop

      return new mxPoint(x, y)
    }
  },

  /**
	 * Function: getScrollOrigin
	 *
	 * Returns the top, left corner of the viewrect as an <mxPoint>.
	 *
	 * Parameters:
	 *
	 * node - DOM node whose scroll origin should be returned.
	 * includeAncestors - Whether the scroll origin of the ancestors should be
	 * included. Default is false.
	 * includeDocument - Whether the scroll origin of the document should be
	 * included. Default is true.
	 */
  getScrollOrigin: function (node, includeAncestors, includeDocument) {
    includeAncestors = (includeAncestors != null) ? includeAncestors : false
    includeDocument = (includeDocument != null) ? includeDocument : true

    var doc = (node != null) ? node.ownerDocument : document
    var b = doc.body
    var d = doc.documentElement
    var result = new mxPoint()
    var fixed = false

    while (node != null && node != b && node != d) {
      if (!isNaN(node.scrollLeft) && !isNaN(node.scrollTop)) {
        result.x += node.scrollLeft
        result.y += node.scrollTop
      }

      var style = mxUtils.getCurrentStyle(node)

      if (style != null) {
        fixed = fixed || style.position == 'fixed'
      }

      node = (includeAncestors) ? node.parentNode : null
    }

    if (!fixed && includeDocument) {
      var origin = mxUtils.getDocumentScrollOrigin(doc)

      result.x += origin.x
      result.y += origin.y
    }

    return result
  },

  /**
	 * Function: convertPoint
	 *
	 * Converts the specified point (x, y) using the offset of the specified
	 * container and returns a new <mxPoint> with the result.
	 *
	 * (code)
	 * var pt = mxUtils.convertPoint(graph.container,
	 *   mxEvent.getClientX(evt), mxEvent.getClientY(evt));
	 * (end)
	 *
	 * Parameters:
	 *
	 * container - DOM node to use for the offset.
	 * x - X-coordinate of the point to be converted.
	 * y - Y-coordinate of the point to be converted.
	 */
  convertPoint: function (container, x, y) {
    var origin = mxUtils.getScrollOrigin(container, false)
    var offset = mxUtils.getOffset(container)

    offset.x -= origin.x
    offset.y -= origin.y

    return new mxPoint(x - offset.x, y - offset.y)
  },

  /**
	 * Function: ltrim
	 *
	 * Strips all whitespaces from the beginning of the string. Without the
	 * second parameter, this will trim these characters:
	 *
	 * - " " (ASCII 32 (0x20)), an ordinary space
	 * - "\t" (ASCII 9 (0x09)), a tab
	 * - "\n" (ASCII 10 (0x0A)), a new line (line feed)
	 * - "\r" (ASCII 13 (0x0D)), a carriage return
	 * - "\0" (ASCII 0 (0x00)), the NUL-byte
	 * - "\x0B" (ASCII 11 (0x0B)), a vertical tab
	 */
  ltrim: function (str, chars) {
    chars = chars || '\\s'

    return (str != null) ? str.replace(new RegExp('^[' + chars + ']+', 'g'), '') : null
  },

  /**
	 * Function: rtrim
	 *
	 * Strips all whitespaces from the end of the string. Without the second
	 * parameter, this will trim these characters:
	 *
	 * - " " (ASCII 32 (0x20)), an ordinary space
	 * - "\t" (ASCII 9 (0x09)), a tab
	 * - "\n" (ASCII 10 (0x0A)), a new line (line feed)
	 * - "\r" (ASCII 13 (0x0D)), a carriage return
	 * - "\0" (ASCII 0 (0x00)), the NUL-byte
	 * - "\x0B" (ASCII 11 (0x0B)), a vertical tab
	 */
  rtrim: function (str, chars) {
    chars = chars || '\\s'

    return (str != null) ? str.replace(new RegExp('[' + chars + ']+$', 'g'), '') : null
  },

  /**
	 * Function: trim
	 *
	 * Strips all whitespaces from both end of the string.
	 * Without the second parameter, Javascript function will trim these
	 * characters:
	 *
	 * - " " (ASCII 32 (0x20)), an ordinary space
	 * - "\t" (ASCII 9 (0x09)), a tab
	 * - "\n" (ASCII 10 (0x0A)), a new line (line feed)
	 * - "\r" (ASCII 13 (0x0D)), a carriage return
	 * - "\0" (ASCII 0 (0x00)), the NUL-byte
	 * - "\x0B" (ASCII 11 (0x0B)), a vertical tab
	 */
  trim: function (str, chars) {
    return mxUtils.ltrim(mxUtils.rtrim(str, chars), chars)
  },

  /**
	 * Function: isNumeric
	 *
	 * Returns true if the specified value is numeric, that is, if it is not
	 * null, not an empty string, not a HEX number and isNaN returns false.
	 *
	 * Parameters:
	 *
	 * n - String representing the possibly numeric value.
	 */
  isNumeric: function (n) {
    return !isNaN(parseFloat(n)) && isFinite(n) && (typeof (n) !== 'string' || n.toLowerCase().indexOf('0x') < 0)
  },

  /**
	 * Function: isInteger
	 *
	 * Returns true if the given value is an valid integer number.
	 *
	 * Parameters:
	 *
	 * n - String representing the possibly numeric value.
	 */
  isInteger: function (n) {
    return String(parseInt(n)) === String(n)
  },

  /**
	 * Function: mod
	 *
	 * Returns the remainder of division of n by m. You should use this instead
	 * of the built-in operation as the built-in operation does not properly
	 * handle negative numbers.
	 */
  mod: function (n, m) {
    return ((n % m) + m) % m
  },

  /**
	 * Function: intersection
	 *
	 * Returns the intersection of two lines as an <mxPoint>.
	 *
	 * Parameters:
	 *
	 * x0 - X-coordinate of the first line's startpoint.
	 * y0 - X-coordinate of the first line's startpoint.
	 * x1 - X-coordinate of the first line's endpoint.
	 * y1 - Y-coordinate of the first line's endpoint.
	 * x2 - X-coordinate of the second line's startpoint.
	 * y2 - Y-coordinate of the second line's startpoint.
	 * x3 - X-coordinate of the second line's endpoint.
	 * y3 - Y-coordinate of the second line's endpoint.
	 */
  intersection: function (x0, y0, x1, y1, x2, y2, x3, y3) {
    var denom = ((y3 - y2) * (x1 - x0)) - ((x3 - x2) * (y1 - y0))
    var nume_a = ((x3 - x2) * (y0 - y2)) - ((y3 - y2) * (x0 - x2))
    var nume_b = ((x1 - x0) * (y0 - y2)) - ((y1 - y0) * (x0 - x2))

    var ua = nume_a / denom
    var ub = nume_b / denom

    if (ua >= 0.0 && ua <= 1.0 && ub >= 0.0 && ub <= 1.0) {
      // Get the intersection point
      var x = x0 + ua * (x1 - x0)
      var y = y0 + ua * (y1 - y0)

      return new mxPoint(x, y)
    }

    // No intersection
    return null
  },

  /**
	 * Function: ptSegDistSq
	 *
	 * Returns the square distance between a segment and a point. To get the
	 * distance between a point and a line (with infinite length) use
	 * <mxUtils.ptLineDist>.
	 *
	 * Parameters:
	 *
	 * x1 - X-coordinate of the startpoint of the segment.
	 * y1 - Y-coordinate of the startpoint of the segment.
	 * x2 - X-coordinate of the endpoint of the segment.
	 * y2 - Y-coordinate of the endpoint of the segment.
	 * px - X-coordinate of the point.
	 * py - Y-coordinate of the point.
	 */
  ptSegDistSq: function (x1, y1, x2, y2, px, py) {
    x2 -= x1
    y2 -= y1

    px -= x1
    py -= y1

    var dotprod = px * x2 + py * y2
    var projlenSq

    if (dotprod <= 0.0) {
		    projlenSq = 0.0
    } else {
		    px = x2 - px
		    py = y2 - py
		    dotprod = px * x2 + py * y2

		    if (dotprod <= 0.0) {
        projlenSq = 0.0
		    } else {
        projlenSq = dotprod * dotprod / (x2 * x2 + y2 * y2)
		    }
    }

    var lenSq = px * px + py * py - projlenSq

    if (lenSq < 0) {
		    lenSq = 0
    }

    return lenSq
  },

  /**
	 * Function: ptLineDist
	 *
	 * Returns the distance between a line defined by two points and a point.
	 * To get the distance between a point and a segment (with a specific
	 * length) use <mxUtils.ptSeqDistSq>.
	 *
	 * Parameters:
	 *
	 * x1 - X-coordinate of point 1 of the line.
	 * y1 - Y-coordinate of point 1 of the line.
	 * x2 - X-coordinate of point 1 of the line.
	 * y2 - Y-coordinate of point 1 of the line.
	 * px - X-coordinate of the point.
	 * py - Y-coordinate of the point.
	 */
  ptLineDist: function (x1, y1, x2, y2, px, py) {
    return Math.abs((y2 - y1) * px - (x2 - x1) * py + x2 * y1 - y2 * x1) /
			Math.sqrt((y2 - y1) * (y2 - y1) + (x2 - x1) * (x2 - x1))
  },

  /**
	 * Function: relativeCcw
	 *
	 * Returns 1 if the given point on the right side of the segment, 0 if its
	 * on the segment, and -1 if the point is on the left side of the segment.
	 *
	 * Parameters:
	 *
	 * x1 - X-coordinate of the startpoint of the segment.
	 * y1 - Y-coordinate of the startpoint of the segment.
	 * x2 - X-coordinate of the endpoint of the segment.
	 * y2 - Y-coordinate of the endpoint of the segment.
	 * px - X-coordinate of the point.
	 * py - Y-coordinate of the point.
	 */
  relativeCcw: function (x1, y1, x2, y2, px, py) {
    x2 -= x1
    y2 -= y1
    px -= x1
    py -= y1
    var ccw = px * y2 - py * x2

    if (ccw == 0.0) {
		    ccw = px * x2 + py * y2

		    if (ccw > 0.0) {
        px -= x2
        py -= y2
        ccw = px * x2 + py * y2

        if (ccw < 0.0) {
				    ccw = 0.0
        }
		    }
    }

    return (ccw < 0.0) ? -1 : ((ccw > 0.0) ? 1 : 0)
  },

  /**
	 * Function: animateChanges
	 *
	 * See <mxEffects.animateChanges>. This is for backwards compatibility and
	 * will be removed later.
	 */
  animateChanges: function (graph, changes) {
    // LATER: Deprecated, remove this function
    	mxEffects.animateChanges.apply(this, arguments)
  },

  /**
	 * Function: cascadeOpacity
	 *
	 * See <mxEffects.cascadeOpacity>. This is for backwards compatibility and
	 * will be removed later.
	 */
  cascadeOpacity: function (graph, cell, opacity) {
    mxEffects.cascadeOpacity.apply(this, arguments)
  },

  /**
	 * Function: fadeOut
	 *
	 * See <mxEffects.fadeOut>. This is for backwards compatibility and
	 * will be removed later.
	 */
  fadeOut: function (node, from, remove, step, delay, isEnabled) {
    mxEffects.fadeOut.apply(this, arguments)
  },

  /**
	 * Function: setOpacity
	 *
	 * Sets the opacity of the specified DOM node to the given value in %.
	 *
	 * Parameters:
	 *
	 * node - DOM node to set the opacity for.
	 * value - Opacity in %. Possible values are between 0 and 100.
	 */
  setOpacity: function (node, value) {
    if (mxUtils.isVml(node)) {
	    	if (value >= 100) {
	    		node.style.filter = ''
	    	} else {
	    		// TODO: Why is the division by 5 needed in VML?
			    node.style.filter = 'alpha(opacity=' + (value / 5) + ')'
	    	}
    } else if (mxClient.IS_IE && (typeof (document.documentMode) === 'undefined' || document.documentMode < 9)) {
	    	if (value >= 100) {
	    		node.style.filter = ''
	    	} else {
			    node.style.filter = 'alpha(opacity=' + value + ')'
	    	}
    } else {
		    node.style.opacity = (value / 100)
    }
  },

  /**
	 * Function: createImage
	 *
	 * Creates and returns an image (IMG node) or VML image (v:image) in IE6 in
	 * quirks mode.
	 *
	 * Parameters:
	 *
	 * src - URL that points to the image to be displayed.
	 */
  createImage: function (src) {
    var imageNode = null

    if (mxClient.IS_IE6 && document.compatMode != 'CSS1Compat') {
        	imageNode = document.createElement(mxClient.VML_PREFIX + ':image')
        	imageNode.setAttribute('src', src)
        	imageNode.style.borderStyle = 'none'
    } else {
      imageNode = document.createElement('img')
      imageNode.setAttribute('src', src)
      imageNode.setAttribute('border', '0')
    }

    return imageNode
  },

  /**
	 * Function: sortCells
	 *
	 * Sorts the given cells according to the order in the cell hierarchy.
	 * Ascending is optional and defaults to true.
	 */
  sortCells: function (cells, ascending) {
    ascending = (ascending != null) ? ascending : true
    var lookup = new mxDictionary()
    cells.sort(function (o1, o2) {
      var p1 = lookup.get(o1)

      if (p1 == null) {
        p1 = mxCellPath.create(o1).split(mxCellPath.PATH_SEPARATOR)
        lookup.put(o1, p1)
      }

      var p2 = lookup.get(o2)

      if (p2 == null) {
        p2 = mxCellPath.create(o2).split(mxCellPath.PATH_SEPARATOR)
        lookup.put(o2, p2)
      }

      var comp = mxCellPath.compare(p1, p2)

      return (comp == 0) ? 0 : (((comp > 0) == ascending) ? 1 : -1)
    })

    return cells
  },

  /**
	 * Function: getStylename
	 *
	 * Returns the stylename in a style of the form [(stylename|key=value);] or
	 * an empty string if the given style does not contain a stylename.
	 *
	 * Parameters:
	 *
	 * style - String of the form [(stylename|key=value);].
	 */
  getStylename: function (style) {
    if (style != null) {
      var pairs = style.split(';')
      var stylename = pairs[0]

      if (stylename.indexOf('=') < 0) {
        return stylename
      }
    }

    return ''
  },

  /**
	 * Function: getStylenames
	 *
	 * Returns the stylenames in a style of the form [(stylename|key=value);]
	 * or an empty array if the given style does not contain any stylenames.
	 *
	 * Parameters:
	 *
	 * style - String of the form [(stylename|key=value);].
	 */
  getStylenames: function (style) {
    var result = []

    if (style != null) {
      var pairs = style.split(';')

      for (var i = 0; i < pairs.length; i++) {
        if (pairs[i].indexOf('=') < 0) {
          result.push(pairs[i])
        }
      }
    }

    return result
  },

  /**
	 * Function: indexOfStylename
	 *
	 * Returns the index of the given stylename in the given style. This
	 * returns -1 if the given stylename does not occur (as a stylename) in the
	 * given style, otherwise it returns the index of the first character.
	 */
  indexOfStylename: function (style, stylename) {
    if (style != null && stylename != null) {
      var tokens = style.split(';')
      var pos = 0

      for (var i = 0; i < tokens.length; i++) {
        if (tokens[i] == stylename) {
          return pos
        }

        pos += tokens[i].length + 1
      }
    }

    return -1
  },

  /**
	 * Function: addStylename
	 *
	 * Adds the specified stylename to the given style if it does not already
	 * contain the stylename.
	 */
  addStylename: function (style, stylename) {
    if (mxUtils.indexOfStylename(style, stylename) < 0) {
      if (style == null) {
        style = ''
      } else if (style.length > 0 && style.charAt(style.length - 1) != ';') {
        style += ';'
      }

      style += stylename
    }

    return style
  },

  /**
	 * Function: removeStylename
	 *
	 * Removes all occurrences of the specified stylename in the given style
	 * and returns the updated style. Trailing semicolons are not preserved.
	 */
  removeStylename: function (style, stylename) {
    var result = []

    if (style != null) {
      var tokens = style.split(';')

      for (var i = 0; i < tokens.length; i++) {
        if (tokens[i] != stylename) {
          result.push(tokens[i])
        }
      }
    }

    return result.join(';')
  },

  /**
	 * Function: removeAllStylenames
	 *
	 * Removes all stylenames from the given style and returns the updated
	 * style.
	 */
  removeAllStylenames: function (style) {
    var result = []

    if (style != null) {
      var tokens = style.split(';')

      for (var i = 0; i < tokens.length; i++) {
        // Keeps the key, value assignments
        if (tokens[i].indexOf('=') >= 0) {
          result.push(tokens[i])
        }
      }
    }

    return result.join(';')
  },

  /**
	 * Function: setCellStyles
	 *
	 * Assigns the value for the given key in the styles of the given cells, or
	 * removes the key from the styles if the value is null.
	 *
	 * Parameters:
	 *
	 * model - <mxGraphModel> to execute the transaction in.
	 * cells - Array of <mxCells> to be updated.
	 * key - Key of the style to be changed.
	 * value - New value for the given key.
	 */
  setCellStyles: function (model, cells, key, value) {
    if (cells != null && cells.length > 0) {
      model.beginUpdate()
      try {
        for (var i = 0; i < cells.length; i++) {
          if (cells[i] != null) {
            var style = mxUtils.setStyle(model.getStyle(cells[i]), key, value)
            model.setStyle(cells[i], style)
          }
        }
      } finally {
        model.endUpdate()
      }
    }
  },

  /**
	 * Function: setStyle
	 *
	 * Adds or removes the given key, value pair to the style and returns the
	 * new style. If value is null or zero length then the key is removed from
	 * the style. This is for cell styles, not for CSS styles.
	 *
	 * Parameters:
	 *
	 * style - String of the form [(stylename|key=value);].
	 * key - Key of the style to be changed.
	 * value - New value for the given key.
	 */
  setStyle: function (style, key, value) {
    var isValue = value != null && (typeof (value.length) === 'undefined' || value.length > 0)

    if (style == null || style.length == 0) {
      if (isValue) {
        style = key + '=' + value + ';'
      }
    } else {
      if (style.substring(0, key.length + 1) == key + '=') {
        var next = style.indexOf(';')

        if (isValue) {
          style = key + '=' + value + ((next < 0) ? ';' : style.substring(next))
        } else {
          style = (next < 0 || next == style.length - 1) ? '' : style.substring(next + 1)
        }
      } else {
        var index = style.indexOf(';' + key + '=')

        if (index < 0) {
          if (isValue) {
            var sep = (style.charAt(style.length - 1) == ';') ? '' : ';'
            style = style + sep + key + '=' + value + ';'
          }
        } else {
          var next = style.indexOf(';', index + 1)

          if (isValue) {
            style = style.substring(0, index + 1) + key + '=' + value + ((next < 0) ? ';' : style.substring(next))
          } else {
            style = style.substring(0, index) + ((next < 0) ? ';' : style.substring(next))
          }
        }
      }
    }

    return style
  },

  /**
	 * Function: setCellStyleFlags
	 *
	 * Sets or toggles the flag bit for the given key in the cell's styles.
	 * If value is null then the flag is toggled.
	 *
	 * Example:
	 *
	 * (code)
	 * var cells = graph.getSelectionCells();
	 * mxUtils.setCellStyleFlags(graph.model,
	 * 			cells,
	 * 			mxConstants.STYLE_FONTSTYLE,
	 * 			mxConstants.FONT_BOLD);
	 * (end)
	 *
	 * Toggles the bold font style.
	 *
	 * Parameters:
	 *
	 * model - <mxGraphModel> that contains the cells.
	 * cells - Array of <mxCells> to change the style for.
	 * key - Key of the style to be changed.
	 * flag - Integer for the bit to be changed.
	 * value - Optional boolean value for the flag.
	 */
  setCellStyleFlags: function (model, cells, key, flag, value) {
    if (cells != null && cells.length > 0) {
      model.beginUpdate()
      try {
        for (var i = 0; i < cells.length; i++) {
          if (cells[i] != null) {
            var style = mxUtils.setStyleFlag(
              model.getStyle(cells[i]),
              key, flag, value)
            model.setStyle(cells[i], style)
          }
        }
      } finally {
        model.endUpdate()
      }
    }
  },

  /**
	 * Function: setStyleFlag
	 *
	 * Sets or removes the given key from the specified style and returns the
	 * new style. If value is null then the flag is toggled.
	 *
	 * Parameters:
	 *
	 * style - String of the form [(stylename|key=value);].
	 * key - Key of the style to be changed.
	 * flag - Integer for the bit to be changed.
	 * value - Optional boolean value for the given flag.
	 */
  setStyleFlag: function (style, key, flag, value) {
    if (style == null || style.length == 0) {
      if (value || value == null) {
        style = key + '=' + flag
      } else {
        style = key + '=0'
      }
    } else {
      var index = style.indexOf(key + '=')

      if (index < 0) {
        var sep = (style.charAt(style.length - 1) == ';') ? '' : ';'

        if (value || value == null) {
          style = style + sep + key + '=' + flag
        } else {
          style = style + sep + key + '=0'
        }
      } else {
        var cont = style.indexOf(';', index)
        var tmp = ''

        if (cont < 0) {
          tmp = style.substring(index + key.length + 1)
        } else {
          tmp = style.substring(index + key.length + 1, cont)
        }

        if (value == null) {
          tmp = parseInt(tmp) ^ flag
        } else if (value) {
          tmp = parseInt(tmp) | flag
        } else {
          tmp = parseInt(tmp) & ~flag
        }

        style = style.substring(0, index) + key + '=' + tmp +
					((cont >= 0) ? style.substring(cont) : '')
      }
    }

    return style
  },

  /**
	 * Function: getAlignmentAsPoint
	 *
	 * Returns an <mxPoint> that represents the horizontal and vertical alignment
	 * for numeric computations. X is -0.5 for center, -1 for right and 0 for
	 * left alignment. Y is -0.5 for middle, -1 for bottom and 0 for top
	 * alignment. Default values for missing arguments is top, left.
	 */
  getAlignmentAsPoint: function (align, valign) {
    var dx = -0.5
    var dy = -0.5

    // Horizontal alignment
    if (align == mxConstants.ALIGN_LEFT) {
      dx = 0
    } else if (align == mxConstants.ALIGN_RIGHT) {
      dx = -1
    }

    // Vertical alignment
    if (valign == mxConstants.ALIGN_TOP) {
      dy = 0
    } else if (valign == mxConstants.ALIGN_BOTTOM) {
      dy = -1
    }

    return new mxPoint(dx, dy)
  },

  /**
	 * Function: getSizeForString
	 *
	 * Returns an <mxRectangle> with the size (width and height in pixels) of
	 * the given string. The string may contain HTML markup. Newlines should be
	 * converted to <br> before calling this method. The caller is responsible
	 * for sanitizing the HTML markup.
	 *
	 * Example:
	 *
	 * (code)
	 * var label = graph.getLabel(cell).replace(/\n/g, "<br>");
	 * var size = graph.getSizeForString(label);
	 * (end)
	 *
	 * Parameters:
	 *
	 * text - String whose size should be returned.
	 * fontSize - Integer that specifies the font size in pixels. Default is
	 * <mxConstants.DEFAULT_FONTSIZE>.
	 * fontFamily - String that specifies the name of the font family. Default
	 * is <mxConstants.DEFAULT_FONTFAMILY>.
	 * textWidth - Optional width for text wrapping.
	 * fontStyle - Optional font style.
	 */
  getSizeForString: function (text, fontSize, fontFamily, textWidth, fontStyle) {
    fontSize = (fontSize != null) ? fontSize : mxConstants.DEFAULT_FONTSIZE
    fontFamily = (fontFamily != null) ? fontFamily : mxConstants.DEFAULT_FONTFAMILY
    var div = document.createElement('div')

    // Sets the font size and family
    div.style.fontFamily = fontFamily
    div.style.fontSize = Math.round(fontSize) + 'px'
    div.style.lineHeight = Math.round(fontSize * mxConstants.LINE_HEIGHT) + 'px'

    // Sets the font style
    if (fontStyle != null) {
      if ((fontStyle & mxConstants.FONT_BOLD) == mxConstants.FONT_BOLD) {
        div.style.fontWeight = 'bold'
      }

      if ((fontStyle & mxConstants.FONT_ITALIC) == mxConstants.FONT_ITALIC) {
        div.style.fontStyle = 'italic'
      }

      var txtDecor = []

      if ((fontStyle & mxConstants.FONT_UNDERLINE) == mxConstants.FONT_UNDERLINE) {
        txtDecor.push('underline')
      }

      if ((fontStyle & mxConstants.FONT_STRIKETHROUGH) == mxConstants.FONT_STRIKETHROUGH) {
        txtDecor.push('line-through')
      }

      if (txtDecor.length > 0) {
        div.style.textDecoration = txtDecor.join(' ')
      }
    }

    // Disables block layout and outside wrapping and hides the div
    div.style.position = 'absolute'
    div.style.visibility = 'hidden'
    div.style.display = (mxClient.IS_QUIRKS) ? 'inline' : 'inline-block'
    div.style.zoom = '1'

    if (textWidth != null) {
      div.style.width = textWidth + 'px'
      div.style.whiteSpace = 'normal'
    } else {
      div.style.whiteSpace = 'nowrap'
    }

    // Adds the text and inserts into DOM for updating of size
    div.innerHTML = text
    document.body.appendChild(div)

    // Gets the size and removes from DOM
    var size = new mxRectangle(0, 0, div.offsetWidth, div.offsetHeight)
    document.body.removeChild(div)

    return size
  },

  /**
	 * Function: getViewXml
	 */
  getViewXml: function (graph, scale, cells, x0, y0) {
    x0 = (x0 != null) ? x0 : 0
    y0 = (y0 != null) ? y0 : 0
    scale = (scale != null) ? scale : 1

    if (cells == null) {
      var model = graph.getModel()
      cells = [model.getRoot()]
    }

    var view = graph.getView()
    var result = null

    // Disables events on the view
    var eventsEnabled = view.isEventsEnabled()
    view.setEventsEnabled(false)

    // Workaround for label bounds not taken into account for image export.
    // Creates a temporary draw pane which is used for rendering the text.
    // Text rendering is required for finding the bounds of the labels.
    var drawPane = view.drawPane
    var overlayPane = view.overlayPane

    if (graph.dialect == mxConstants.DIALECT_SVG) {
      view.drawPane = document.createElementNS(mxConstants.NS_SVG, 'g')
      view.canvas.appendChild(view.drawPane)

      // Redirects cell overlays into temporary container
      view.overlayPane = document.createElementNS(mxConstants.NS_SVG, 'g')
      view.canvas.appendChild(view.overlayPane)
    } else {
      view.drawPane = view.drawPane.cloneNode(false)
      view.canvas.appendChild(view.drawPane)

      // Redirects cell overlays into temporary container
      view.overlayPane = view.overlayPane.cloneNode(false)
      view.canvas.appendChild(view.overlayPane)
    }

    // Resets the translation
    var translate = view.getTranslate()
    view.translate = new mxPoint(x0, y0)

    // Creates the temporary cell states in the view
    var temp = new mxTemporaryCellStates(graph.getView(), scale, cells)

    try {
      var enc = new mxCodec()
      result = enc.encode(graph.getView())
    } finally {
      temp.destroy()
      view.translate = translate
      view.canvas.removeChild(view.drawPane)
      view.canvas.removeChild(view.overlayPane)
      view.drawPane = drawPane
      view.overlayPane = overlayPane
      view.setEventsEnabled(eventsEnabled)
    }

    return result
  },

  /**
	 * Function: getScaleForPageCount
	 *
	 * Returns the scale to be used for printing the graph with the given
	 * bounds across the specifies number of pages with the given format. The
	 * scale is always computed such that it given the given amount or fewer
	 * pages in the print output. See <mxPrintPreview> for an example.
	 *
	 * Parameters:
	 *
	 * pageCount - Specifies the number of pages in the print output.
	 * graph - <mxGraph> that should be printed.
	 * pageFormat - Optional <mxRectangle> that specifies the page format.
	 * Default is <mxConstants.PAGE_FORMAT_A4_PORTRAIT>.
	 * border - The border along each side of every page.
	 */
  getScaleForPageCount: function (pageCount, graph, pageFormat, border) {
    if (pageCount < 1) {
      // We can't work with less than 1 page, return no scale
      // change
      return 1
    }

    pageFormat = (pageFormat != null) ? pageFormat : mxConstants.PAGE_FORMAT_A4_PORTRAIT
    border = (border != null) ? border : 0

    var availablePageWidth = pageFormat.width - (border * 2)
    var availablePageHeight = pageFormat.height - (border * 2)

    // Work out the number of pages required if the
    // graph is not scaled.
    var graphBounds = graph.getGraphBounds().clone()
    var sc = graph.getView().getScale()
    graphBounds.width /= sc
    graphBounds.height /= sc
    var graphWidth = graphBounds.width
    var graphHeight = graphBounds.height

    var scale = 1

    // The ratio of the width/height for each printer page
    var pageFormatAspectRatio = availablePageWidth / availablePageHeight
    // The ratio of the width/height for the graph to be printer
    var graphAspectRatio = graphWidth / graphHeight

    // The ratio of horizontal pages / vertical pages for this
    // graph to maintain its aspect ratio on this page format
    var pagesAspectRatio = graphAspectRatio / pageFormatAspectRatio

    // Factor the square root of the page count up and down
    // by the pages aspect ratio to obtain a horizontal and
    // vertical page count that adds up to the page count
    // and has the correct aspect ratio
    var pageRoot = Math.sqrt(pageCount)
    var pagesAspectRatioSqrt = Math.sqrt(pagesAspectRatio)
    var numRowPages = pageRoot * pagesAspectRatioSqrt
    var numColumnPages = pageRoot / pagesAspectRatioSqrt

    // These value are rarely more than 2 rounding downs away from
    // a total that meets the page count. In cases of one being less
    // than 1 page, the other value can be too high and take more iterations
    // In this case, just change that value to be the page count, since
    // we know the other value is 1
    if (numRowPages < 1 && numColumnPages > pageCount) {
      var scaleChange = numColumnPages / pageCount
      numColumnPages = pageCount
      numRowPages /= scaleChange
    }

    if (numColumnPages < 1 && numRowPages > pageCount) {
      var scaleChange = numRowPages / pageCount
      numRowPages = pageCount
      numColumnPages /= scaleChange
    }

    var currentTotalPages = Math.ceil(numRowPages) * Math.ceil(numColumnPages)

    var numLoops = 0

    // Iterate through while the rounded up number of pages comes to
    // a total greater than the required number
    while (currentTotalPages > pageCount) {
      // Round down the page count (rows or columns) that is
      // closest to its next integer down in percentage terms.
      // i.e. Reduce the page total by reducing the total
      // page area by the least possible amount

      var roundRowDownProportion = Math.floor(numRowPages) / numRowPages
      var roundColumnDownProportion = Math.floor(numColumnPages) / numColumnPages

      // If the round down proportion is, work out the proportion to
      // round down to 1 page less
      if (roundRowDownProportion == 1) {
        roundRowDownProportion = Math.floor(numRowPages - 1) / numRowPages
      }
      if (roundColumnDownProportion == 1) {
        roundColumnDownProportion = Math.floor(numColumnPages - 1) / numColumnPages
      }

      // Check which rounding down is smaller, but in the case of very small roundings
      // try the other dimension instead
      var scaleChange = 1

      // Use the higher of the two values
      if (roundRowDownProportion > roundColumnDownProportion) {
        scaleChange = roundRowDownProportion
      } else {
        scaleChange = roundColumnDownProportion
      }

      numRowPages = numRowPages * scaleChange
      numColumnPages = numColumnPages * scaleChange
      currentTotalPages = Math.ceil(numRowPages) * Math.ceil(numColumnPages)

      numLoops++

      if (numLoops > 10) {
        break
      }
    }

    // Work out the scale from the number of row pages required
    // The column pages will give the same value
    var posterWidth = availablePageWidth * numRowPages
    scale = posterWidth / graphWidth

    // Allow for rounding errors
    return scale * 0.99999
  },

  /**
	 * Function: show
	 *
	 * Copies the styles and the markup from the graph's container into the
	 * given document and removes all cursor styles. The document is returned.
	 *
	 * This function should be called from within the document with the graph.
	 * If you experience problems with missing stylesheets in IE then try adding
	 * the domain to the trusted sites.
	 *
	 * Parameters:
	 *
	 * graph - <mxGraph> to be copied.
	 * doc - Document where the new graph is created.
	 * x0 - X-coordinate of the graph view origin. Default is 0.
	 * y0 - Y-coordinate of the graph view origin. Default is 0.
	 * w - Optional width of the graph view.
	 * h - Optional height of the graph view.
	 */
  show: function (graph, doc, x0, y0, w, h) {
    x0 = (x0 != null) ? x0 : 0
    y0 = (y0 != null) ? y0 : 0

    if (doc == null) {
      var wnd = window.open()
      doc = wnd.document
    } else {
      doc.open()
    }

    // Workaround for missing print output in IE9 standards
    if (document.documentMode == 9) {
      doc.writeln('<!--[if IE]><meta http-equiv="X-UA-Compatible" content="IE=9"><![endif]-->')
    }

    var bounds = graph.getGraphBounds()
    var dx = Math.ceil(x0 - bounds.x)
    var dy = Math.ceil(y0 - bounds.y)

    if (w == null) {
      w = Math.ceil(bounds.width + x0) + Math.ceil(Math.ceil(bounds.x) - bounds.x)
    }

    if (h == null) {
      h = Math.ceil(bounds.height + y0) + Math.ceil(Math.ceil(bounds.y) - bounds.y)
    }

    // Needs a special way of creating the page so that no click is required
    // to refresh the contents after the external CSS styles have been loaded.
    // To avoid a click or programmatic refresh, the styleSheets[].cssText
    // property is copied over from the original document.
    if (mxClient.IS_IE || document.documentMode == 11) {
      var html = '<html><head>'

      var base = document.getElementsByTagName('base')

      for (var i = 0; i < base.length; i++) {
        html += base[i].outerHTML
      }

      html += '<style>'

      // Copies the stylesheets without having to load them again
      for (var i = 0; i < document.styleSheets.length; i++) {
        try {
          html += document.styleSheets[i].cssText
        } catch (e) {
          // ignore security exception
        }
      }

      html += '</style></head><body style="margin:0px;">'

      // Copies the contents of the graph container
      html += '<div style="position:absolute;overflow:hidden;width:' + w + 'px;height:' + h + 'px;"><div style="position:relative;left:' + dx + 'px;top:' + dy + 'px;">'
      html += graph.container.innerHTML
      html += '</div></div></body><html>'

      doc.writeln(html)
      doc.close()
    } else {
      doc.writeln('<html><head>')

      var base = document.getElementsByTagName('base')

      for (var i = 0; i < base.length; i++) {
        doc.writeln(mxUtils.getOuterHtml(base[i]))
      }

      var links = document.getElementsByTagName('link')

      for (var i = 0; i < links.length; i++) {
        doc.writeln(mxUtils.getOuterHtml(links[i]))
      }

      var styles = document.getElementsByTagName('style')

      for (var i = 0; i < styles.length; i++) {
        doc.writeln(mxUtils.getOuterHtml(styles[i]))
      }

      doc.writeln('</head><body style="margin:0px;"></body></html>')
      doc.close()

      var outer = doc.createElement('div')
      outer.position = 'absolute'
      outer.overflow = 'hidden'
      outer.style.width = w + 'px'
      outer.style.height = h + 'px'

      // Required for HTML labels if foreignObjects are disabled
      var div = doc.createElement('div')
      div.style.position = 'absolute'
      div.style.left = dx + 'px'
      div.style.top = dy + 'px'

      var node = graph.container.firstChild
      var svg = null

      while (node != null) {
        var clone = node.cloneNode(true)

        if (node == graph.view.drawPane.ownerSVGElement) {
          outer.appendChild(clone)
          svg = clone
        } else {
          div.appendChild(clone)
        }

        node = node.nextSibling
      }

      doc.body.appendChild(outer)

      if (div.firstChild != null) {
        doc.body.appendChild(div)
      }

      if (svg != null) {
        svg.style.minWidth = ''
        svg.style.minHeight = ''
        svg.firstChild.setAttribute('transform', 'translate(' + dx + ',' + dy + ')')
      }
    }

    mxUtils.removeCursors(doc.body)

    return doc
  },

  /**
	 * Function: printScreen
	 *
	 * Prints the specified graph using a new window and the built-in print
	 * dialog.
	 *
	 * This function should be called from within the document with the graph.
	 *
	 * Parameters:
	 *
	 * graph - <mxGraph> to be printed.
	 */
  printScreen: function (graph) {
    var wnd = window.open()
    var bounds = graph.getGraphBounds()
    mxUtils.show(graph, wnd.document)

    var print = function () {
      wnd.focus()
      wnd.print()
      wnd.close()
    }

    // Workaround for Google Chrome which needs a bit of a
    // delay in order to render the SVG contents
    if (mxClient.IS_GC) {
      wnd.setTimeout(print, 500)
    } else {
      print()
    }
  },

  /**
	 * Function: popup
	 *
	 * Shows the specified text content in a new <mxWindow> or a new browser
	 * window if isInternalWindow is false.
	 *
	 * Parameters:
	 *
	 * content - String that specifies the text to be displayed.
	 * isInternalWindow - Optional boolean indicating if an mxWindow should be
	 * used instead of a new browser window. Default is false.
	 */
  popup: function (content, isInternalWindow) {
	   	if (isInternalWindow) {
      var div = document.createElement('div')

      div.style.overflow = 'scroll'
      div.style.width = '636px'
      div.style.height = '460px'

      var pre = document.createElement('pre')
		    pre.innerHTML = mxUtils.htmlEntities(content, false)
		    	.replace(/\n/g, '<br>').replace(/ /g, '&nbsp;')

      div.appendChild(pre)

      var w = document.body.clientWidth
      var h = Math.max(document.body.clientHeight || 0, document.documentElement.clientHeight)
      var wnd = new mxWindow('Popup Window', div,
        w / 2 - 320, h / 2 - 240, 640, 480, false, true)

      wnd.setClosable(true)
      wnd.setVisible(true)
    } else {
      // Wraps up the XML content in a textarea
      if (mxClient.IS_NS) {
			    var wnd = window.open()
        wnd.document.writeln('<pre>' + mxUtils.htmlEntities(content) + '</pre')
			   	wnd.document.close()
      } else {
			    var wnd = window.open()
			    var pre = wnd.document.createElement('pre')
			    pre.innerHTML = mxUtils.htmlEntities(content, false)
			    	.replace(/\n/g, '<br>').replace(/ /g, '&nbsp;')
			   	wnd.document.body.appendChild(pre)
      }
	   	}
  },

  /**
	 * Function: alert
	 *
	 * Displayss the given alert in a new dialog. This implementation uses the
	 * built-in alert function. This is used to display validation errors when
	 * connections cannot be changed or created.
	 *
	 * Parameters:
	 *
	 * message - String specifying the message to be displayed.
	 */
  alert: function (message) {
    alert(message)
  },

  /**
	 * Function: prompt
	 *
	 * Displays the given message in a prompt dialog. This implementation uses
	 * the built-in prompt function.
	 *
	 * Parameters:
	 *
	 * message - String specifying the message to be displayed.
	 * defaultValue - Optional string specifying the default value.
	 */
  prompt: function (message, defaultValue) {
    return prompt(message, (defaultValue != null) ? defaultValue : '')
  },

  /**
	 * Function: confirm
	 *
	 * Displays the given message in a confirm dialog. This implementation uses
	 * the built-in confirm function.
	 *
	 * Parameters:
	 *
	 * message - String specifying the message to be displayed.
	 */
  confirm: function (message) {
    return confirm(message)
  },

  /**
	 * Function: error
	 *
	 * Displays the given error message in a new <mxWindow> of the given width.
	 * If close is true then an additional close button is added to the window.
	 * The optional icon specifies the icon to be used for the window. Default
	 * is <mxUtils.errorImage>.
	 *
	 * Parameters:
	 *
	 * message - String specifying the message to be displayed.
	 * width - Integer specifying the width of the window.
	 * close - Optional boolean indicating whether to add a close button.
	 * icon - Optional icon for the window decoration.
	 */
  error: function (message, width, close, icon) {
    var div = document.createElement('div')
    div.style.padding = '20px'

    var img = document.createElement('img')
    img.setAttribute('src', icon || mxUtils.errorImage)
    img.setAttribute('valign', 'bottom')
    img.style.verticalAlign = 'middle'
    div.appendChild(img)

    div.appendChild(document.createTextNode('\u00a0')) // &nbsp;
    div.appendChild(document.createTextNode('\u00a0')) // &nbsp;
    div.appendChild(document.createTextNode('\u00a0')) // &nbsp;
    mxUtils.write(div, message)

    var w = document.body.clientWidth
    var h = (document.body.clientHeight || document.documentElement.clientHeight)
    var warn = new mxWindow(mxResources.get(mxUtils.errorResource) ||
			mxUtils.errorResource, div, (w - width) / 2, h / 4, width, null,
    false, true)

    if (close) {
      mxUtils.br(div)

      var tmp = document.createElement('p')
      var button = document.createElement('button')

      if (mxClient.IS_IE) {
        button.style.cssText = 'float:right'
      } else {
        button.setAttribute('style', 'float:right')
      }

      mxEvent.addListener(button, 'click', function (evt) {
        warn.destroy()
      })

      mxUtils.write(button, mxResources.get(mxUtils.closeResource) ||
				mxUtils.closeResource)

      tmp.appendChild(button)
      div.appendChild(tmp)

      mxUtils.br(div)

      warn.setClosable(true)
    }

    warn.setVisible(true)

    return warn
  },

  /**
	 * Function: makeDraggable
	 *
	 * Configures the given DOM element to act as a drag source for the
	 * specified graph. Returns a a new <mxDragSource>. If
	 * <mxDragSource.guideEnabled> is enabled then the x and y arguments must
	 * be used in funct to match the preview location.
	 *
	 * Example:
	 *
	 * (code)
	 * var funct = function(graph, evt, cell, x, y)
	 * {
	 *   if (graph.canImportCell(cell))
	 *   {
	 *     var parent = graph.getDefaultParent();
	 *     var vertex = null;
	 *
	 *     graph.getModel().beginUpdate();
	 *     try
	 *     {
	 * 	     vertex = graph.insertVertex(parent, null, 'Hello', x, y, 80, 30);
	 *     }
	 *     finally
	 *     {
	 *       graph.getModel().endUpdate();
	 *     }
	 *
	 *     graph.setSelectionCell(vertex);
	 *   }
	 * }
	 *
	 * var img = document.createElement('img');
	 * img.setAttribute('src', 'editors/images/rectangle.gif');
	 * img.style.position = 'absolute';
	 * img.style.left = '0px';
	 * img.style.top = '0px';
	 * img.style.width = '16px';
	 * img.style.height = '16px';
	 *
	 * var dragImage = img.cloneNode(true);
	 * dragImage.style.width = '32px';
	 * dragImage.style.height = '32px';
	 * mxUtils.makeDraggable(img, graph, funct, dragImage);
	 * document.body.appendChild(img);
	 * (end)
	 *
	 * Parameters:
	 *
	 * element - DOM element to make draggable.
	 * graphF - <mxGraph> that acts as the drop target or a function that takes a
	 * mouse event and returns the current <mxGraph>.
	 * funct - Function to execute on a successful drop.
	 * dragElement - Optional DOM node to be used for the drag preview.
	 * dx - Optional horizontal offset between the cursor and the drag
	 * preview.
	 * dy - Optional vertical offset between the cursor and the drag
	 * preview.
	 * autoscroll - Optional boolean that specifies if autoscroll should be
	 * used. Default is mxGraph.autoscroll.
	 * scalePreview - Optional boolean that specifies if the preview element
	 * should be scaled according to the graph scale. If this is true, then
	 * the offsets will also be scaled. Default is false.
	 * highlightDropTargets - Optional boolean that specifies if dropTargets
	 * should be highlighted. Default is true.
	 * getDropTarget - Optional function to return the drop target for a given
	 * location (x, y). Default is mxGraph.getCellAt.
	 */
  makeDraggable: function (element, graphF, funct, dragElement, dx, dy, autoscroll,
    scalePreview, highlightDropTargets, getDropTarget) {
    var dragSource = new mxDragSource(element, funct)
    dragSource.dragOffset = new mxPoint((dx != null) ? dx : 0,
      (dy != null) ? dy : mxConstants.TOOLTIP_VERTICAL_OFFSET)
    dragSource.autoscroll = autoscroll

    // Cannot enable this by default. This needs to be enabled in the caller
    // if the funct argument uses the new x- and y-arguments.
    dragSource.setGuidesEnabled(false)

    if (highlightDropTargets != null) {
      dragSource.highlightDropTargets = highlightDropTargets
    }

    // Overrides function to find drop target cell
    if (getDropTarget != null) {
      dragSource.getDropTarget = getDropTarget
    }

    // Overrides function to get current graph
    dragSource.getGraphForEvent = function (evt) {
      return (typeof (graphF) === 'function') ? graphF(evt) : graphF
    }

    // Translates switches into dragSource customizations
    if (dragElement != null) {
      dragSource.createDragElement = function () {
        return dragElement.cloneNode(true)
      }

      if (scalePreview) {
        dragSource.createPreviewElement = function (graph) {
          var elt = dragElement.cloneNode(true)

          var w = parseInt(elt.style.width)
          var h = parseInt(elt.style.height)
          elt.style.width = Math.round(w * graph.view.scale) + 'px'
          elt.style.height = Math.round(h * graph.view.scale) + 'px'

          return elt
        }
      }
    }

    return dragSource
  }

}
